The AME2003 atomic mass evaluation
advertisement
The AME2003 atomic mass evaluation ∗ (II). Tables, graphs and references G. Audia,§, A.H. Wapstrab and C. Thibaulta a b Centre de Spectrométrie Nucléaire et de Spectrométrie de Masse, CSNSM, IN2P3-CNRS&UPS, Bâtiment 108, F-91405 Orsay Campus, France National Institute of Nuclear Physics and High-Energy Physics, NIKHEF, PO Box 41882, 1009DB Amsterdam, The Netherlands Abstract This paper is the second part of the new evaluation of atomic masses AME2003. From the results of a least-squares calculation described in Part I for all accepted experimental data, we derive here tables and graphs to replace those of 1993. The first table lists atomic masses. It is followed by a table of the influences of data on primary nuclides, a table of separation energies and reaction energies, and finally, a series of graphs of separation and decay energies. The last section in this paper lists all references to the input data used in Part I of this AME2003 and also to the data entering the NUBASE2003 evaluation (first paper in this volume). AMDC: http://csnwww.in2p3.fr/AMDC/ 1. Introduction The description of the general procedures and policies are given in Part I of this series of two papers, where the input data used in the evaluation are presented. In this paper we give tables and graphs derived from the evaluation of the input data in Part I. Firstly, we present the table of atomic masses (Table I) expressed as mass excesses in energy units, together with the binding energy per nucleon, the beta-decay energy and the full atomic mass in mass units. * This work has been undertaken with the encouragement of the IUPAP Commission on Symbols, Units, Nomenclature, Atomic Masses and Fundamental Constants (SUN-AMCO). § Corresponding author. E-mail address: audi@csnsm.in2p3.fr (G. Audi). 338 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 The second table is the table of influences on primary nuclides (Table II). For each of the primary nuclides entering this evaluation, we give the three main data and their influences on the mass of this nuclide (see the definitions in Part I, Section 3). Thirdly, we give a table for values and their estimated precision for the separation energies and reaction energies for twelve carefully selected combinations of nuclides. This selection, together with the β -decay energies above, yields all differences in masses between any pair of nuclei differing at most by 2 units in Z and N. A method is indicated in which many more reaction energy values can be derived from the present table. The following series of graphs are then presented: two-neutron separation energies and α -decay energies as a function of neutron number, two-proton separation energies as a function of proton number and double β -decay energies as a function of mass number which are considered as the most illustrative ones for the systematic trends. Finally, references to the input data used in Part I of this AME2003 and in NUBASE2003 in the first paper of this volume are given in the last section of this paper. 2. The atomic mass table As in our previous work AME’93 [1]–[4] and AME’95 [5], the tables presented in this work give atomic masses and derived quantities. With very few exceptions, experimental data on masses of nuclei refer to “atomic” masses or to masses of singly ionized atoms. In this last case the ionization energy is generally (much) smaller than the error on the mass, and, for the small number of very precise mass measurements, corrections for the first -and second- ionization potentials could be applied without much loss of accuracy. The same is true for the electron mass Me involved, see Table A in Part I. This is the reason for the decision to present, in our evaluations, atomic rather than nuclear masses. Nuclear masses can be calculated from atomic ones by using the formula: MN (A, Z) = MA (A, Z) − Z × Me + Be (Z) (1) Nowadays, several mass measurements are made on fully or almost fully ionized particles. Then, a correction must be made for the total binding energy of all removed electrons Be (Z). They can be found in the table for calculated total atomic binding energy of all electrons of Huang et al. [6]. Unfortunately, the precision of the calculated values Be (Z) is not clear; this quantity (up to 760 keV for 92 U) cannot be measured easily. Very probably, its precision for 92 U is rather better than the 2 keV accuracy with which the mass of, e.g., 238 U is known. A simple formula, approximating the results of [6], is given in the review of Lunney, Pearson and Thibault [7]: Bel (Z) = 14.4381 Z 2.39 + 1.55468 × 10−6 Z 5.35 eV (2) G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 339 Table A. The most precisely known masses. Mass excess (keV90 ) 1n 1H 2H 3H 3 He 4 He 13 C 14 C 14 N 15 N 16 O 20 Ne 23 Na 28 Si 40 Ar 8 071.317 10 7 288.970 50 13 135.721 58 14 949.806 00 14 931.214 75 2 424.915 65 3 125.011 29 3 019.893 05 2 863.417 04 101.438 05 – 4 737.001 41 – 7 041.931 31 – 9 529.853 58 – 21 492.796 78 – 35 039.896 02 0.000 53 0.000 11 0.000 35 0.002 31 0.002 42 0.000 06 0.000 91 0.003 80 0.000 58 0.000 70 0.000 16 0.001 79 0.002 73 0.001 81 0.002 68 Atomic mass (µ u) 1 008 664.915 74 1 007 825.032 07 2 014 101.777 85 3 016 049.277 67 3 016 029.319 14 4 002 603.254 15 13 003 354.837 78 14 003 241.988 70 14 003 074.004 78 15 000 108.898 23 15 994 914.619 56 19 992 440.175 42 22 989 769.280 87 27 976 926.532 46 39 962 383.122 51 0.000 56 0.000 10 0.000 36 0.002 47 0.002 60 0.000 06 0.000 98 0.004 08 0.000 62 0.000 75 0.000 16 0.001 92 0.002 93 0.001 94 0.002 86 The atomic masses are given in mass units and the derived quantities in energy units. For the atomic mass unit we use the “unified atomic mass unit,” symbol “u”, defined as 1/12 of the atomic mass of one 12 C atom in its electronic and nuclear ground states and in its rest coordinate system. In our work energy values are expressed as electron-volt, using the maintained volt V90 . For a discussion see Part I, Section 2. As mentioned in Part I, we no longer give values for the binding energies, ZMH + NMn − M, as we used to in earlier tables. Otherwise than before, its error equals that in the value of the mass excess, which makes its use unnecessary. We now give instead the binding energy per nucleon, which is of educational interest, connected to the Aston curve and the maximum stability around the ‘iron-peak’ of importance in astrophysics. Due to the drastic increase in the precision of the mass values of the very light nuclei, the printing format of the mass table is not adequate. Table A gives, for the most precise among them, values of mass excesses and atomic masses. Conversion of the errors from µ u to keV were obtained by: σM2 keV = (σMu × u)2 + (Mu × σu )2 (3) where Mu is the mass excess in µ u, and σu the error of u expressed in eV90 . The part 340 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Table B. Correlation matrices for the most precisely known very light nuclei (in squared nano atomic mass units). n H D 4 He 13 C 14 N 15 N 16 O 28 Si n 0.316817 H – 0.007978 0.010689 D 0.124508 0.002709 0.127243 4 He 0.000000 0.000000 0.000000 0.004011 13 C 0.125909 – 0.007584 0.118352 0.000000 0.954145 14 N – 0.008911 0.012558 0.003645 0.000000 – 0.008470 0.384729 15 N 0.094981 0.016262 0.111262 0.000000 0.090285 0.019496 0.558755 16 O – 0.001022 0.001377 0.000355 0.000000 – 0.000972 0.005718 0.002100 0.027039 28 Si 0.227453 0.008282 0.235786 0.000000 0.216210 0.010584 0.653732 0.001078 3.761099 n n H D 3H 3 He 16 O 20 Ne 23 Na 28 Si 0.316817 – 0.007978 0.124508 0.008197 0.009704 – 0.001022 0.326227 – 0.000000 0.227453 H D 0.010689 0.002709 0.000942 0.001116 0.001377 0.014358 0.000000 0.008282 0.127243 0.009139 0.010822 0.000355 0.340650 0.000000 0.235786 3H 6.116907 5.694194 0.000122 0.024965 0.000000 0.017163 3 He 16 O 20 Ne 23 Na 28 Si 6.743975 0.000144 0.029563 0.000000 0.020325 0.027039 0.001866 0.000000 0.001078 3.687126 0.000000 0.633419 8.587458 0.000000 3.761099 dependent on Mu is only important for very few nuclides. 3. Influences on primary nuclides Table II presents a list of all primary nuclides, and for each of these the main data contributing to its mass determination (up to the three most important ones) and the influences of these data on this nuclide. This Table II complements the information given in the main table (Part I, Table I) where we display the significance (total flux) and the main flux of each datum. In other words, the flow-of-information matrix F, defined in Part I, Section 5.1, is (partly) displayed once along lines and once along columns. 4. Nuclear-reaction and separation energies The result of the least-squares adjustment of experimental data (reaction and decay energies and mass-spectrometric data) determining atomic masses of nuclides, as described in Part I, is not represented completely by the adjusted values of the input data given there and the resulting values of the atomic masses given in the Table I. A com- G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 341 plete representation would require reproduction of a matrix of correlation coefficents. Since this matrix contains 12 N(N + 1) elements in which N = 847, this is not very attractive. The main use of the correlation matrix is in obtaining errors in linear combinations of atomic masses. In practice, the correlations are important only for combinations involving two neighbouring nuclides with small differences in mass number and particles such as n, p, d, t, 3 He and α . Such combinations, consisting of various kinds of decay and binding energies of particles or groups of particles, are important for systematic studies of the nuclear energy surface and for Q-values of frequently studied reactions. As before [2], we present in Table III values for 12 such combinations and their standard errors. The β -decay energies are given in Table I. With the help of the instructions given in the ‘Explanation of Table’, values for 28 additional reactions and their standard errors can be derived. The derived values will be correct, but in a few cases (of reactions on very light nuclei measured with extreme precision) the errors will be slightly larger than would follow from a calculation including correlations. The precision (standard error) in the value of any combination of the most precise mass values, for very light nuclei, can be obtained with the help of the correlation coefficients given in Table B. When doing this, one should calculate the values to which these errors belong from the mass values (in µ u), and not from the massexcesses (in keV), in the mass table (Table I). We have also prepared a table of neutron, proton and deuteron pairing energies, available from the AMDC [8], defined as: 1 Pn (A, Z) = (−1)A−Z+1 [Sn (A + 1, Z) − 2Sn (A, Z) + Sn (A − 1, Z)] 4 1 Pp (A, Z) = (−1)Z+1 [S p (A + 1, Z + 1) − 2S p (A, Z) + S p (A − 1, Z − 1)] 4 1 Pd (A, Z) = (−1)Z+1 [Sd (A + 2, Z + 1) − 2Sd (A, Z) + Sd (A − 2, Z − 1)] 4 Sn , S p , and Sd are the neutron, proton and deuteron separation energies, the latter being defined as Sd (A, Z) = −M(A, Z) + M(A − 2, Z − 1) + M(d) = −Q(γ , d), and Sn , and S p , are defined below in the Explanation of Table. Remark: Pn is also sometimes written as: 1 Pn (A, Z) = (−1)A−Z+1 [−M(A + 1, Z) + 3M(A, Z) − 3M(A − 1, Z) + M(A − 2, Z)] 4 displaying thus more clearly the combination of the involved masses. And similarly for Pp and Pd . 342 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 5. Graphs of systematic trends All the information contained in the mass table (Table I) and in the nuclear reaction and separation energy table (Table III) can in principle be displayed in a plot of the binding energy or the mass versus Z, N, or A. Such a plot, in which the binding energies vary rapidly, is complicated by the fact that there are four sheets, corresponding to the four possible combinations of parity for Z and N. These sheets are nearly parallel almost everywhere in this three dimensional space and have remarkably regular trends, as one may convince oneself by making various cuts (e.g. Z or N or A constant). Any derivative of the binding energies also defines four sheets. In the present context, derivative means a specified difference between the masses of two nearby nuclei. They are also smooth and have the advantage of displaying much smaller variations (see also Part I, Section 4). For a derivative specified in such a way that differences are between nuclides in the same mass sheet, the nearly parallelism of these leads to an (almost) unique surface for the derivative, allowing thus a single display. Therefore, in order to illustrate the systematic trends of the masses, four derivatives of this last type were chosen: 1. the two-neutron separation energies versus N, with lines connecting the isotopes of a given element (Figs. 1–9); 2. the two-proton separation energies versus Z, with lines connecting the isotones (the same number of neutrons) (Figs. 10–17); 3. the α -decay energies versus N, with lines connecting the isotopes of a given element (Figs. 18–26); 4. the double β -decay energies versus A, with lines connecting the isotopes and the isotones (Figs. 27–36). These graphs of systematic trends supersede earlier graphs [3]. Other various representations are possible (e.g. separately for odd and even nuclei: one-neutron separation energies versus N, one-proton separation energy versus Z, β decay energy versus A, . . . ); they can all be built starting from the values in Table III. They cannot all be given in the present printed version, but they are retrievable from the Web distribution [8]. Clearly showing the systematic trends, these graphs can be quite useful for checking the quality of any interpolation or extrapolation (if not too far) and generally is an excellent testground for theoretical mass models. When some masses in a defined region deviate from the systematic trends, almost always there is a serious physical cause, like a shell or subshell closure or an onset of deformation. But, if only one mass exhibits an irregular pattern, violating the systematic trends, then one may seriously question the correctness of the related data. See the discussion in Part I, Section 4. G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 343 6. List of references for the NUBASE2003 and AME2003 evaluations Full references related to all the input data used in the present AME2003 evaluation, as well as in the NUBASE2003 evaluation (first article in this volume), are listed in a special table, at the end of this paper. A list of identifiers for journals, books, conferences . . . is given first, as much as possible in the CODEN-style (see [9]). With one exception though, for the Eur. Phys. Journal for which we prefered the ‘EPJAA’ identifier, that we think more practical to use, than the ‘ZAANE’ identifier as adopted by the NSR. The references were quoted, in both evaluations in the NSR [9] key number style, where available, and only for the regular journals. They are listed here by year of publication and first author name. References [1] G. Audi and A.H. Wapstra, Nucl. Phys. A 565 (1993) 1; http://csnwww.in2p3.fr/AMDC/masstables/Ame1993/ [2] G. Audi and A.H. Wapstra, Nucl. Phys. A 565 (1993) 66. [3] C. Borcea, G. Audi, A.H. Wapstra and P. Favaron, Nucl. Phys. A 565 (1993) 158. [4] G. Audi, A.H. Wapstra and M. Dedieu, Nucl. Phys. A 565 (1993) 193. [5] G. Audi and A.H. Wapstra, Nucl. Phys. A 595 (1995) 409; http://csnwww.in2p3.fr/AMDC/masstables/Ame1995/ [6] K.-N. Huang, M. Aoyagi, M.H. Chen, B. Crasemann and H. Mark, At. Nucl. Data Tables 18 (1976) 243. [7] D. Lunney, J.M. Pearson and C. Thibault, Rev. Mod. Phys. 75 (2003) 1021. [8] The AME2003 files in the electronic distribution and complementary documents can be retrieved from the Atomic Mass Data Center (AMDC) through the Web: http://csnwww.in2p3.fr/amdc/ [9] Nuclear Structure Reference (NSR): a computer file of indexed references maintained by NNDC, Brookhaven National Laboratory; http://www2.nndc.bnl.gov/nsr/ 344 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Table I. Atomic mass table EXPLANATION OF TABLE N Z A Elt. Orig. Mass excess Binding energy per nucleon Beta-decay energy Atomic mass Number of neutrons. Number of protons. Mass number A = N + Z. Element symbol (for Z > 109 see Section 2). Origin of values for secondary nuclides. zp nn mass of A Z derived from mass of A+z+n (Z + z). Special notations: IT when z = 0, n = 0; + when z = +1, n = −1; − when z = −1, n = +1; ++ when z = +2, n = −2; −− when z = −2, n = +2; εp when z = −2, n = +1; when z = +2, n = +2; +α when z = −2, n = −2; −α x for distant connection. Mass excess [M(in u)−A], in keV, and its one standard deviation error. In cases where the furthest-left significant digit in the error was larger than 3, values and errors were rounded off, but not to more than tens of keV. (Examples: 2345.67±2.78 → 2345.7±2.8, 2345.67±4.68 → 2346±5, but 2346.7 ± 468.2 → 2350 ± 470). # in place of decimal point: value and error derived not from purely experimental data, but at least partly from systematic trends. Tabulated binding energy per nucleon (in keV): B/A = 1/A[ZM(1 H) + NM(1 n) − M(A, Z)]. and its one standard deviation error. # in place of decimal point: see above. Direction of decay, value and standard error in keV: for β − : Q− = M(A, Z) − M(A, Z + 1); for β + : Q+ = M(A, Z) − M(A, Z − 1). For a few odd-odd nuclides near maximum β -stability decaying both β − and β + , the Q+ values are given as negative Q− values for the preceding even-even isobar. ∗ in place of value: not calculable. # in place of decimal point: see above. Atomic mass M and its one standard deviation error in µ u. # in place of decimal point: see above. G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 1 0 0 1 1 n H 1 1 2 H 2 1 1 2 0 3 3 H He Li 3 1 2 2 1 3 4 H He Li Mass excess (keV) 8071.3171 7288.97050 13135.7216 14949.8060 14931.2148 -pp 28670# -n 25900 2424.91565 -p 25320 32890 11390 11680 38000# Binding energy per nucleon (keV) 0.0005 0.00011 0.0 0.0 0.0003 1112.283 0.0023 0.0024 2000# 100 0.00006 210 4 3 2 1 1 2 3 4 5 H He Li Be -nn -n -p x 100 50 50 4000# 5 4 3 2 1 1 2 3 4 5 6 H He Li Be B -3n 41860 17595.1 14086.793 − 18375 x 43600# 6 5 4 3 2 1 2 3 4 5 7 H He Li Be B -nn 49140# -n 26101 14908.14 15770.03 +3n 27870 1010# 17 0.08 0.11 70 6 5 4 3 2 2 3 4 5 6 8 He Li Be B C 31598 20946.84 4941.67 22921.5 4n 35094 7 6 5 4 3 2 3 4 5 6 9 He Li Be B C 8 7 6 5 4 3 0.0 0.0 Beta-decay energy (keV) β− 0.000 782.347 * 0.001 * − 2827.266 0.001 β 18.591 0.001 2572.681 0.001 * + -2270# 670# β 13740# 2000# 1400 7073.915 1150 1336 5481 5266 -150# 26 β − 23480 0.000 * 50 β + 22900 20 10 10 800# β − + β β+ 21510 * 290 26320# 100 210 110 70 4000# 960 40 4878.02 0.13 5332.345 0.003 4487.3 0.9 150# 120# β − 24270 β − 3508.3 * β + 4288 + β 25230# 940# 140# 4119.1 2.4 5606.291 0.011 5371.400 0.015 3531 10 β − 23030# β − 11193 * β+ 861.89 + β 12100 7 0.09 0.04 1.0 23 3926.0 5159.582 7062.435 4717.16 3097.8 0.9 0.012 0.004 0.13 2.9 β − 10651 β − 16005.17 * β + 17979.8 + β 12173 40939 24954.3 11347.6 − 12415.7 -pp 28910.5 29 1.9 0.4 1.0 2.1 3349 5037.84 6462.76 6257.16 4337.48 3 0.22 0.04 0.11 0.24 β − 15985 β − 13606.6 * β + 1068.0 + β 16494.8 29 1.9 2 10 He 3 Li 4 Be 5 B 6 C 7 N ++ 48810 -n 33051 12606.7 12050.7 − 15698.7 −− 38800 70 15 0.4 0.4 0.4 400 3034 4531.6 6497.71 6475.07 6032.04 3640 7 1.5 0.04 0.04 0.04 40 β − 15760 β − 20444 β− 555.9 * + β 3647.95 + β 23100 70 15 0.6 8 7 6 5 4 3 11 Li 4 Be 5 B 6 C 7 N 40797 -n 20174 8667.9 10650.3 -p 24300 19 6 0.4 1.0 50 4149.1 5952.8 6927.71 6676.37 5364 1.8 0.6 0.04 0.09 4 β − 20623 β − 11506 * β + 1982.4 + β 13650 20 6 9 8 7 6 5 4 3 12 Li 4 Be 5 B 6 C 7 N 8 O x 50100# -nn 25077 +pn 13368.9 0.0 17338.1 -pp 32048 1000# 15 1.4 0.0 1.0 18 3700# 5720.8 6631.26 7680.144 6170.11 4879.1 80# 1.3 0.12 0.000 0.08 1.5 β − 25020# β − 11708 β − 13368.9 * β + 17338.1 + β 14710 1000# 15 1.4 260 0.8 0.015 5 700# 260 0.8 5 700# 1010# 17 0.07 70 7 0.10 1.0 23 0.9 2.4 0.12 400 0.9 50 1.0 18 345 Atomic mass µu 1 008664.9157 1 007825.03207 0.0006 0.00010 2 014101.7778 0.0004 3 016049.2777 3 016029.3191 3 030780# 0.0025 0.0026 2150# 4 027810 4 002603.25415 4 027190 5 035310 5 012220 5 012540 5 040790# 6 044940 6 018889.1 6 015122.795 6 019726 6 046810# 110 0.00006 230 110 50 50 4290# 280 0.8 0.016 6 750# 7 052750# 7 028021 7 016004.55 7 016929.83 7 029920 1080# 18 0.08 0.11 80 8 033922 8 022487.36 8 005305.10 8 024607.2 8 037675 7 0.10 0.04 1.1 25 9 043950 9 026789.5 9 012182.2 9 013328.8 9 031036.7 30 2.1 0.4 1.1 2.3 10 052400 10 035481 10 013533.8 10 012937.0 10 016853.2 10 041650 80 16 0.4 0.4 0.4 430 11 043798 11 021658 11 009305.4 11 011433.6 11 026090 21 7 0.4 1.0 50 12 053780# 12 026921 12 014352.1 12 000000.0 12 018613.2 12 034405 1070# 16 1.5 0.0 1.1 20 346 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. 9 8 7 6 5 4 13 Be 5 B 6 C 7 N 8 O -n 33250 -nn 16562.2 3125.0113 5345.48 +3n 23112 70 1.1 0.0009 0.27 10 10 9 8 7 6 5 4 14 Be 5 B 6 C 7 N 8 O 9 F x 39950 23664 3019.893 2863.4170 8007.36 x 32660# 130 21 0.004 0.0006 0.11 400# 4994 9 6101.6 1.5 7520.319 0.000 7475.614 0.000 7052.308 0.008 5236# 29# 11 10 9 8 7 6 4 15 Be 5 B 6 C 7 N 8 O 9 F -n2p 49800# +3p 28972 -n 9873.1 101.4380 2855.6 p4n 16780 500# 22 0.8 0.0007 0.5 130 12 4 16 Be 11 5 B 10 6 C 9 7 N 8 8 O 7 9 F 6 10 Ne Orig. Mass excess (keV) x 57680# 500# x 37080 60 -nn 13694 4 -n 5683.7 2.6 -4737.00141 0.00016 − 10680 8 −− 23996 20 Binding energy per nucleon (keV) 5273 6496.40 7469.849 7238.863 5812.0 6 0.08 0.000 0.021 0.7 Beta-decay energy (keV) β − 16690 β − 13437.2 * β + 2220.47 + β 17767 70 1.1 13 035690 13 017780.2 13 003354.8378 13 005738.61 13 024812 80 1.2 0.0010 0.29 10 β − 16290 130 β − 20644 21 − β 156.476 0.004 * + β 5143.94 0.11 β + 24650# 400# 14 042890 14 025404 14 003241.989 14 003074.0048 14 008596.25 14 035060# 140 23 0.004 0.0006 0.12 430# 4540# 30# 5879.0 1.5 7100.17 0.05 7699.459 0.000 7463.69 0.03 6484 9 β − 20830# β − 19099 β − 9771.7 * β + 2754.2 + β 13920 15 053460# 15 031103 15 010599.3 15 000108.8982 15 003065.6 15 018010 540# 24 0.9 0.0007 0.5 140 4270# 30# 5509 4 6922.05 0.22 7373.81 0.16 7976.206 0.000 6963.7 0.5 6082.6 1.3 β − 20600# β − 23390 β − 8010 β − 10420.7 * β + 15417 + β 13316 510# 60 4 2.6 0.27 10 500# 22 0.8 0.5 130 8 22 12 5 17 B 11 6 C 10 7 N 9 8 O 8 9 F 7 10 Ne x 43770 2p−n 21039 +p 7871 -808.81 1951.70 +3n 16461 170 17 15 0.11 0.25 27 5266 10 6557.6 1.0 7286.2 0.9 7750.731 0.006 7542.328 0.015 6642.8 1.6 β − 22730 β − 13167 β − 8680 * β + 2760.51 + β 14509 170 23 15 13 5 18 B 12 6 C 11 7 N 10 8 O 9 9 F 8 10 Ne 7 11 Na x 52320# ++ 24930 + 13114 -781.5 873.7 4n 5317.17 x 24190 800# 30 19 0.6 0.5 0.28 50 4950# 50# 6425.7 1.7 7038.5 1.0 7767.03 0.03 7631.605 0.030 7341.282 0.016 6249.3 2.8 β − 27400# β − 11810 β − 13896 * β + 1655.2 + β 4443.5 β + 18870 800# 40 19 14 5 19 B x 59360# 13 6 C -n 32420 12 7 N p−2n 15862 11 8 O -n 3334.9 10 9 F -1487.39 9 10 Ne 1751.44 8 11 Na p4n 12927 7 12 Mg x 33040 400# 100 16 2.8 0.07 0.29 12 250 4741# 21# 6118 5 6948.2 0.9 7566.39 0.15 7779.015 0.004 7567.375 0.015 6938.0 0.6 5838 13 β − 26940# β − 16560 β − 12527 β − 4822.3 * β + 3238.83 + β 11175 β + 20110 410# 100 17 2.8 14 6 20 C 13 7 N 12 8 O 11 9 F 10 10 Ne 9 11 Na 8 12 Mg 240 60 1.1 0.08 0.0018 7 27 5959 12 6709.2 2.8 7568.51 0.05 7720.131 0.004 8032.240 0.000 7298.6 0.3 6723.4 1.4 β − 15790 β − 17970 β − 3814.9 β − 7024.53 * β + 13890 + β 10723 250 60 1.1 0.08 x 37560 x 21770 -nn 3797.5 -17.40 -7041.9313 − 6848 4n 17570 Atomic mass µu 0.27 27 0.6 0.6 50 0.29 12 250 7 28 16 061920# 540# 16 039810 60 16 014701 4 16 006101.7 2.8 15 994914.61956 0.00016 16 011466 9 16 025761 22 17 046990 17 022586 17 008450 16 999131.70 17 002095.24 17 017672 180 19 16 0.12 0.27 29 18 056170# 18 026760 18 014079 17 999161.0 18 000938.0 18 005708.2 18 025970 860# 30 20 0.7 0.6 0.3 50 19 063730# 19 034810 19 017029 19 003580 18 998403.22 19 001880.2 19 013877 19 035470 430# 110 18 3 0.07 0.3 13 270 20 040320 20 023370 20 004076.7 19 999981.32 19 992440.1754 20 007351 20 018863 260 60 1.2 0.08 0.0019 7 29 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 15 14 13 12 11 10 9 8 6 7 8 9 10 11 12 13 21 C N O F Ne Na Mg Al x x -3n -nn -n -p +3n x 45960# 25250 8063 -47.6 -5731.78 -2184.2 10911 26120# 500# 100 12 1.8 0.04 0.7 16 300# 5659# 6608 7389.3 7738.29 7971.713 7765.52 7104.7 6343# 24# 5 0.6 0.09 0.002 0.03 0.8 14# β− β− β− β− 16 15 14 13 12 11 10 9 8 6 7 8 9 10 11 12 13 14 22 C N O F Ne Na Mg Al Si x x -4n + 53280# 32040 9280 2793 -8024.715 -5182.4 -397.0 18180# 32160# 900# 190 60 12 0.018 0.4 1.3 90# 200# 5440# 6366 7364.8 7624.3 8080.465 7915.709 7662.63 6783# 6111# 40# 9 2.6 0.6 0.001 0.019 0.06 4# 9# β− β− β− β− 16 15 14 13 12 11 10 9 7 8 9 10 11 12 13 14 23 38400# 14610 3330 -5154.05 -9529.8536 -5473.8 6770 23770# 300# 120 80 0.10 0.0027 1.3 19 200# 6164# 7164 7620 7955.255 8111.493 7901.13 7334.8 6562# 13# 5 3 0.005 0.000 0.06 0.8 9# β− β− β− β− 17 16 15 14 13 12 11 10 9 7 8 9 10 11 12 13 14 15 24 47540# 19070 7560 -5951.5 -8418.11 -13933.567 -56.9 10755 32000# 400# 240 70 0.4 0.08 0.013 2.8 19 500# 5862# 7016 7463 7993.319 8063.496 8260.709 7649.92 7166.8 6249# 17# 10 3 0.016 0.003 0.001 0.12 0.8 21# β− β− β− β− β− 18 17 16 15 14 13 12 11 10 7 8 9 10 11 12 13 14 15 25 56500# 27440# 11270 -2108 -9357.8 -13192.83 -8916.2 3824 18870# 500# 260# 100 26 1.2 0.03 0.5 10 200# 5592# 6723# 7339 7842.7 8101.40 8223.504 8021.144 7480.2 6847# 20# 10# 4 1.0 0.05 0.001 0.019 0.4 8# β− β− β− β− β− 18 17 16 15 14 13 12 11 10 8 9 10 11 12 13 14 15 16 26 35710# 18270 430 -6862 -16214.582 -12210.31 -7145 10970# 25970# 260# 170 27 6 0.027 0.06 3 200# 300# 6457# 7098 7753.9 8004.26 8333.872 8149.771 7924.85 7198# 6591# 10# 6 1.0 0.22 0.001 0.002 0.12 8# 11# β− β− β− β− − +nn x x N O F Ne Na Mg Al Si x x p−2n -n N O F Ne Na Mg Al Si P x x x -nn -n N O F Ne Na Mg Al Si P O F Ne Na Mg Al Si P S p4n x − −− x x -n x x -nn -p +3n x -nn x x x +nn x x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 20710# 17190 8110 5684.2 * 3547.6 13095 15210# 510# 100 12 1.8 21240# 22750 6490 10818 * 2842.3 4785.5 18580# 13980# 920# 200 60 12 23780# 11280 8480 4375.81 * 4056.1 12243 17000# 320# 150 80 0.10 28470# 11510 13510 2466.6 5515.45 * 13876.6 10812 21240# 470# 250 70 0.4 0.08 29060# 16170# 13380 7250 3835.0 * 4276.7 12740 15050# 570# 280# 100 26 1.2 17440# 17840 7292 9352 * 4004.27 5066 18120# 15000# 310# 170 27 6 0.7 16 300# 0.4 1.4 90# 220# 1.3 19 200# 2.8 20 500# 0.5 10 200# 0.06 3 200# 360# 347 Atomic mass µu 21 049340# 21 027110 21 008656 20 999949.0 20 993846.68 20 997655.2 21 011713 21 028040# 540# 100 13 1.9 0.04 0.8 18 320# 22 057200# 22 034390 22 009970 22 002999 21 991385.114 21 994436.4 21 999573.8 22 019520# 22 034530# 970# 210 60 13 0.019 0.4 1.4 100# 220# 23 041220# 23 015690 23 003570 22 994466.90 22 989769.2809 22 994123.7 23 007267 23 025520# 320# 130 90 0.11 0.0029 1.4 20 210# 24 051040# 24 020470 24 008120 23 993610.8 23 990962.78 23 985041.700 23 999938.9 24 011546 24 034350# 430# 250 80 0.4 0.08 0.014 3.0 21 540# 25 060660# 25 029460# 25 012100 24 997737 24 989954.0 24 985836.92 24 990428.1 25 004106 25 020260# 540# 280# 110 28 1.3 0.03 0.5 11 210# 26 038340# 26 019620 26 000461 25 992633 25 982592.929 25 986891.69 25 992330 26 011780# 26 027880# 280# 180 29 6 0.030 0.06 3 210# 320# 348 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 19 18 17 16 15 14 13 12 11 8 9 10 11 12 13 14 15 16 27 O F Ne Na Mg Al Si P S x x x 20 19 18 17 16 15 14 13 12 11 8 9 10 11 12 13 14 15 16 17 28 20 19 18 17 16 15 14 13 12 9 10 11 12 13 14 15 16 17 29 21 20 19 18 17 16 15 14 13 12 9 10 11 12 13 14 15 16 17 18 30 22 21 20 19 18 17 16 15 14 13 9 10 11 12 13 14 15 16 17 18 31 22 21 20 19 18 17 16 15 14 13 10 11 12 13 14 15 16 17 18 19 32 O F Ne Na Mg Al Si P S Cl -n − p4n − x x x + -n − −− x x x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) β− β− β− β− β− 44950# 24930 7070 -5517 -14586.65 -17196.66 -12384.30 -717 17540# 500# 380 110 4 0.05 0.12 0.15 26 200# 6175# 6887 7520 7956.93 8263.854 8331.545 8124.334 7663.2 6958# 19# 14 4 0.13 0.002 0.004 0.006 1.0 7# 53850# 33230# 11240 -989 -15018.6 -16850.44 -21492.7968 -7159 4070 26560# 600# 510# 150 13 2.0 0.13 0.0018 3 160 500# 5925# 6633# 7390 7799.3 8272.41 8309.886 8447.744 7907.87 7479 6648# 21# 18# 5 0.5 0.07 0.005 0.000 0.12 6 18# 580# 270 13 14 1.2 0.021 0.6 50 200# 6439# 7179 7682.7 8113.8 8348.72 8448.634 8251.228 7748.6 7159# 20# 9 0.4 0.5 0.04 0.001 0.021 1.7 7# β− β− β− β− β− β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ F Ne Na Mg Al Si P S Cl x -nn -n -p +3n x 40300# 18060 2665 -10619 -18215.3 -21895.046 -16952.6 -3160 13140# F Ne Na Mg Al Si P S Cl Ar x x x x + -n -p +nn x x 48900# 23100 8361 -8911 -15872 -24432.928 -20200.6 -14063 4440# 20080# 600# 570 25 8 14 0.030 0.3 3 200# 300# 6206# 7040 7505.8 8055.40 8261.4 8520.653 8353.496 8122.82 7480# 6932# 20# 19 0.8 0.28 0.5 0.001 0.010 0.10 7# 10# β− β− β− β− β− F Ne Na Mg Al Si P S Cl Ar -nn x x x p−2n -n 56290# 30840# 12650 -3217 -14954 -22949.01 -24440.88 -19044.6 -7070 11290# 600# 900# 210 12 20 0.04 0.18 1.5 50 210# 6028# 6824# 7385 7872.3 8225.6 8458.290 8481.178 8281.87 7870.3 7253# 19# 29# 7 0.4 0.7 0.001 0.006 0.05 1.6 7# β− β− β− β− β− β− Ne Na Mg Al Si P S Cl Ar K x x x x -n -n 37280# 19060 -955 -11060 -24080.91 -24305.22 -26015.70 -13330 -2200.2 20420# 800# 360 18 90 0.05 0.19 0.14 7 1.8 500# 6662# 7207 7807.8 8099.2 8481.569 8464.130 8493.134 8072.25 7700.00 6969# 25# 11 0.6 2.7 0.002 0.006 0.004 0.21 0.06 16# β− β− β− β− β− β− +n p4n − − x x β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 20030# 17860 12590 9069 2610.01 * 4812.36 11667 18260# 630# 390 110 4 0.13 20620# 21980# 12230 14029 1831.8 4642.36 * 14334 11230 22480# 790# 530# 150 13 2.0 0.13 22240# 15390 13284 7596 3679.7 * 4942.4 13790 16300# 640# 270 19 14 1.2 25800# 14740 17272 6962 8561 * 4232.4 6138 18510# 15640# 830# 570 27 16 14 25450# 18190# 15870 11736 7995 1491.88 * 5396.2 11980 18360# 1080# 930# 210 24 20 0.19 18210# 20020 10110 13020 224.31 1710.48 * 12686 11130 22620# 880# 360 90 90 0.19 0.22 0.10 26 200# 3 160 530# 0.6 50 200# 0.3 3 200# 360# 1.5 50 200# 7 7 500# Atomic mass µu 27 048260# 27 026760 27 007590 26 994077 26 984340.59 26 981538.63 26 986704.91 26 999230 27 018830# 540# 400 120 4 0.05 0.12 0.16 28 220# 28 057810# 28 035670# 28 012070 27 998938 27 983876.8 27 981910.31 27 976926.5325 27 992315 28 004370 28 028510# 640# 550# 160 14 2.2 0.14 0.0019 4 170 540# 29 043260# 29 019390 29 002861 28 988600 28 980445.0 28 976494.700 28 981800.6 28 996610 29 014110# 620# 290 14 15 1.3 0.022 0.6 50 210# 30 052500# 30 024800 30 008976 29 990434 29 982960 29 973770.17 29 978313.8 29 984903 30 004770# 30 021560# 640# 610 27 9 15 0.03 0.3 3 210# 320# 31 060430# 31 033110# 31 013590 30 996546 30 983947 30 975363.23 30 973761.63 30 979554.7 30 992410 31 012120# 640# 970# 230 13 22 0.04 0.20 1.6 50 220# 32 040020# 32 020470 31 998975 31 988120 31 974148.08 31 973907.27 31 972071.00 31 985690 31 997638.0 32 021920# 860# 380 19 90 0.05 0.20 0.15 7 1.9 540# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 23 22 21 20 19 18 17 16 15 14 10 11 12 13 14 15 16 17 18 19 33 Ne Na Mg Al Si P S Cl Ar K x x x x +n2p + 24 23 22 21 20 19 18 17 16 15 14 10 11 12 13 14 15 16 17 18 19 20 34 Ne Na Mg Al Si P S Cl Ar K Ca -nn -n x x +pp +pn 24 23 22 21 20 19 18 17 16 15 11 12 13 14 15 16 17 18 19 20 35 Na Mg Al Si P S Cl Ar K Ca -n x x 2p−n +p 25 24 23 22 21 20 19 18 17 16 15 11 12 13 14 15 16 17 18 19 20 21 36 Na Mg Al Si P S Cl Ar K Ca Sc -n x x x + 26 25 24 23 22 21 20 19 18 17 16 11 12 13 14 15 16 17 18 19 20 21 37 Na Mg Al Si P S Cl Ar K Ca Sc -p x x p4n x x − p4n x − 4n x -nn x x x p−2n -n − -p +3n x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) 46000# 24890 4894 -8530 -20493 -26337.5 -26585.99 -21003.4 -9384.1 6760# 800# 870 20 70 16 1.1 0.14 0.5 0.4 200# 6440# 7056 7638.5 8021.6 8360.4 8513.81 8497.634 8304.758 7928.950 7416# 24# 27 0.6 2.2 0.5 0.03 0.004 0.014 0.013 6# β− β− β− β− β− β− 53120# 32760# 8810 -2930 -19957 -24558 -29931.79 -24439.78 -18377.2 -1480# 13150# 810# 900# 230 110 14 5 0.11 0.18 0.4 300# 300# 6279# 6855# 7536 7858 8336.1 8448.45 8583.501 8398.961 8197.640 7678# 7224# 24# 26# 7 3 0.4 0.15 0.003 0.005 0.011 9# 9# β− β− β− β− β− β− 39580# 16150# -130 -14360 -24857.7 -28846.36 -29013.54 -23047.4 -11169 4600# 950# 400# 180 40 1.9 0.10 0.04 0.7 20 200# 6695# 7342# 7784 8168.7 8446.25 8537.854 8520.278 8327.465 7965.7 7493# 27# 11# 5 1.1 0.05 0.003 0.001 0.021 0.6 6# β− β− β− β− β− β− 47950# 21420# 5780 -12480 -20251 -30664.07 -29521.86 -30231.540 -17426 -6440 13900# 950# 500# 210 120 13 0.19 0.07 0.027 8 40 500# 6500# 7215# 7628 8114 8307.9 8575.387 8521.927 8519.909 8142.47 7815.6 7229# 26# 14# 6 3 0.4 0.005 0.002 0.001 0.22 1.1 14# β− β− β− β− β− β− β− 55280# 29250# 9950 -6580 -18990 -26896.36 -31761.53 -30947.66 -24800.20 -13162 2840# 960# 900# 330 170 40 0.20 0.05 0.21 0.09 22 300# 6345# 7027# 7528 7953 8267.5 8459.934 8570.280 8527.139 8339.847 8004.2 7550# 26# 24# 9 5 1.0 0.005 0.001 0.006 0.003 0.6 8# β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 21110# 20000 13420 11960 5845 248.5 * 5582.6 11619.3 16150# 1190# 880 80 70 16 1.1 20360# 23950# 11740 17020 4601 5374 * 5492.01 6062.6 16900# 14630# 1210# 930# 260 110 15 5 23430# 16280# 14230 10500 3988.6 167.18 * 5966.1 11879 15770# 1030# 440# 180 40 1.9 0.09 26530# 15640# 18260 7770 10413 -1142.22 709.68 * 12805 10990 20340# 1080# 550# 250 120 13 0.19 0.08 26030# 19300# 16530 12410 7900 4865.17 * 813.87 6147.46 11638 16000# 1320# 960# 370 170 40 0.20 0.4 0.6 200# 0.15 0.4 300# 420# 0.7 20 200# 8 40 510# 0.20 0.23 22 300# 349 Atomic mass µu 33 049380# 33 026720 33 005254 32 990840 32 978000 32 971725.5 32 971458.76 32 977451.9 32 989925.7 33 007260# 860# 940 21 80 17 1.2 0.15 0.5 0.5 210# 34 057030# 34 035170# 34 009460 33 996850 33 978576 33 973636 33 967866.90 33 973762.82 33 980271.2 33 998410# 34 014120# 870# 960# 250 120 15 5 0.12 0.19 0.4 320# 320# 35 042490# 35 017340# 34 999860 34 984580 34 973314.1 34 969032.16 34 968852.68 34 975257.6 34 988010 35 004940# 1020# 430# 190 40 2.0 0.11 0.04 0.8 21 210# 36 051480# 36 023000# 36 006210 35 986600 35 978260 35 967080.76 35 968306.98 35 967545.106 35 981292 35 993090 36 014920# 1020# 540# 230 130 14 0.20 0.08 0.029 8 40 540# 37 059340# 37 031400# 37 010680 36 992940 36 979610 36 971125.57 36 965902.59 36 966776.32 36 973375.89 36 985870 37 003050# 1030# 970# 360 180 40 0.21 0.05 0.22 0.10 24 320# 350 N G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Z A Elt. Orig. Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) 26 25 24 23 22 21 20 19 18 17 16 12 38 Mg 13 Al 14 Si 15 P 16 S 17 Cl 18 Ar 19 K 20 Ca 21 Sc 22 Ti x 35000# x 16050 x -4070 x -14760 + -26861 -n -29798.10 -34714.6 -28800.7 +nn -22059 x -4940# x 9100# 500# 730 140 100 7 0.10 0.3 0.4 5 300# 250# 6903# 13# 7381 19 7890 4 8150.9 2.7 8448.78 0.19 8505.480 0.003 8614.273 0.009 8438.057 0.012 8240.06 0.12 7769# 8# 7379# 7# β− β− β− β− β− β− 27 26 25 24 23 22 21 20 19 18 17 12 39 Mg -n 43570# 13 Al x 21400 14 Si x 1930 15 P x -12870 16 S 2p−n -23160 17 Cl -nn -29800.2 18 Ar + -33242 19 K -33807.01 20 Ca − -27274.4 21 Sc 2n−p -14168 22 Ti x 1500# 510# 1470 340 100 50 1.7 5 0.19 1.9 24 210# 6713# 13# 7260 40 7741 9 8100.5 2.7 8344.3 1.3 8494.40 0.04 8562.59 0.13 8557.020 0.005 8369.46 0.05 8013.3 0.6 7592# 5# β− β− β− β− β− β− β− 28 27 26 25 24 23 22 21 20 19 18 17 12 40 Mg 13 Al 14 Si 15 P 16 S 17 Cl 18 Ar 19 K 20 Ca 21 Sc 22 Ti 23 V x 50240# x 29300# x 5470 x -8110 x -22870 + -27560 -35039.8960 -33535.20 -34846.27 − -20523.2 −− -8850 x 10330# 6581# 7085# 7661 7981 8330 8427.8 8595.259 8538.083 8551.301 8173.67 7862 7363# 23# 17# 14 3 4 0.8 0.000 0.005 0.005 0.07 4 13# β− β− β− β− β− β− β− β− 28 27 26 25 24 23 22 21 20 19 18 13 41 Al 14 Si 15 P 16 S 17 Cl 18 Ar 19 K 20 Ca 21 Sc 22 Ti 23 V x 35700# x 13560 x -5280 x -19020 x -27310 -33067.5 -35559.07 -35137.76 -28642.39 x -15700# x -210# 800# 1840 220 120 70 0.3 0.19 0.24 0.23 100# 210# 6952# 20# 7470 40 7914 5 8229.9 2.9 8413.0 1.7 8534.371 0.008 8576.061 0.005 8546.703 0.006 8369.198 0.006 8034# 2# 7637# 5# β− β− β− β− β− β− 29 28 27 26 25 24 23 22 21 20 19 18 13 42 Al 14 Si 15 P 16 S 17 Cl 18 Ar 19 K 20 Ca 21 Sc 22 Ti 23 V 24 Cr 900# 500# 450 120 140 6 0.22 0.25 0.27 5 200# 300# 6789# 22# 7372# 12# 7770 11 8194.2 3.0 8348 3 8555.61 0.14 8551.245 0.005 8616.559 0.006 8444.935 0.006 8259.65 0.13 7837# 5# 7482# 7# β− β− β− β− β− β− β− x x x x x x -n 43680# 18430# 940 -17680 -24910 -34423 -35021.56 -38547.07 -32121.24 -pp -25122 x -8170# x 5990# 900# 700# 560 140 140 30 0.0027 0.19 0.21 2.8 160 500# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 18950# 20120 10690 12100 2937 4916.5 * 5913.86 6741 17120# 14040# 22170# 19470 14800 10290 6640 3442 565 * 6532.6 13106 15670# Atomic mass µu 890# 740 170 100 7 0.3 38 037570# 38 017230 37 995630 37 984160 37 971163 37 968010.43 37 962732.4 0.29 37 969081.2 5 37 976318 300# 37 994700# 390# 38 009770# 1560# 1510 350 110 50 5 5 1.9 24 210# 39 046770# 39 022970 39 002070 38 986180 38 975130 38 968008.2 38 964313 38 963706.68 38 970719.7 38 984790 39 001610# 540# 780 150 110 8 0.10 0.4 0.5 5 320# 270# 550# 1580 360 110 50 1.9 5 0.20 2.0 26 220# 20940# 1140# 23830# 890# 13570 570 14760 200 4690 140 7480 30 -1504.69 0.19 1311.07 0.11 * 14323.0 2.8 11670 160 19180# 530# 40 053930# 40 031450# 40 005870 39 991300 39 975450 39 970420 39 962383.1225 39 963998.48 39 962590.98 39 977967 39 990500 40 011090# 970# 750# 600 150 150 30 0.0029 0.21 0.22 3 170 540# 22140# 2010# 18840 1860 13740 250 8290 140 5760 70 2491.6 0.4 * 421.31 0.18 6495.37 0.16 12940# 100# 15500# 230# 41 038330# 41 014560 40 994340 40 979580 40 970680 40 964500.6 40 961825.76 40 962278.06 40 969251.13 40 983150# 40 999780# 860# 1980 230 130 70 0.4 0.21 0.26 0.24 110# 220# 25240# 1030# 17500# 670# 18620 460 7240 190 9510 140 599 6 3525.52 0.22 * 6425.83 0.12 7000 5 16950# 200# 14160# 360# 42 046890# 42 019790# 42 001010 41 981020 41 973250 41 963046 41 962402.81 41 958618.01 41 965516.43 41 973031 41 991230# 42 006430# 970# 540# 480 130 150 6 0.24 0.27 0.29 6 210# 320# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. 29 28 27 26 25 24 23 22 21 20 19 14 15 16 17 18 19 20 21 22 23 24 43 Si P S Cl Ar K Ca Sc Ti V Cr 30 29 28 27 26 25 24 23 22 21 20 19 14 15 16 17 18 19 20 21 22 23 24 25 44 30 29 28 27 26 25 24 23 22 21 20 19 15 16 17 18 19 20 21 22 23 24 25 26 45 31 30 29 28 27 26 25 24 23 22 21 20 15 16 17 18 19 20 21 22 23 24 25 26 46 31 30 29 28 27 26 25 24 23 22 21 20 16 17 18 19 20 21 22 23 24 25 26 27 47 Si P S Cl Ar K Ca Sc Ti V Cr Mn P S Cl Ar K Ca Sc Ti V Cr Mn Fe Orig. x x x x x + -p -n2p x x x x x x x + -p −α x x x x x x x +p − p4n x x -pp P S Cl Ar K Ca Sc Ti V Cr Mn Fe x x x +pp +pn S Cl Ar K Ca Sc Ti V Cr Mn Fe Co x x 2p−n +p -n − x x x -p +3n x x x Mass excess (keV) Binding energy per nucleon (keV) 351 Beta-decay energy (keV) 26700# 5770 -11970 -24170 -32010 -36593 -38408.6 -36187.9 -29321 -18020# -2130# 700# 970 200 160 5 9 0.3 1.9 7 230# 220# 7196# 7664 8058 8324 8488.24 8576.63 8600.659 8530.82 8352.93 8072# 7684# 16# 23 5 4 0.12 0.21 0.007 0.04 0.16 5# 5# β− β− β− β− β− β− 32840# 12100# -9120 -20230 -32673.1 -35810 -41468.5 -37816.1 -37548.5 -24120 -13460# 6400# 800# 700# 390 110 1.6 40 0.4 1.8 0.7 120 50# 500# 7076# 7530# 7994 8228.8 8493.84 8547.3 8658.170 8557.38 8533.518 8210.5 7951# 7481# 18# 16# 9 2.5 0.04 0.8 0.009 0.04 0.017 2.8 1# 11# β− β− β− β− β− β− 17900# -3250 -18360 -29770.6 -36608 -40812.0 -41067.8 -39005.7 -31880 -18970 -5110# 13580# 800# 1740 120 0.5 10 0.4 0.8 1.0 17 500 300# 220# 7413# 7870 8183.8 8419.947 8554.51 8630.540 8618.840 8555.631 8379.9 8076 7750# 7318# 18# 40 2.8 0.012 0.23 0.009 0.019 0.022 0.4 11 7# 5# β− β− β− β− β− β− 25500# 700# -14710 -29720 -35418 -43135.1 -41757.1 -44123.4 -37073.0 -29474 -12370# 760# 900# 700# 720 40 16 2.3 0.8 0.8 1.0 20 110# 350# 7262# 7784# 8102 8411.3 8518.1 8668.89 8621.922 8656.356 8486.079 8303.9 7915# 7613# 20# 15# 16 0.9 0.3 0.05 0.018 0.018 0.022 0.4 2# 8# β− β− β− β− β− β− β− 8000# -10520# -25910 -35696 -42340.1 -44332.1 -44932.4 -42002.1 -34558 -22260# -6620# 10700# 800# 600# 100 8 2.3 2.0 0.8 0.8 14 160# 260# 500# 7635# 8012# 8322.9 8514.54 8639.26 8664.99 8661.121 8582.127 8407.11 8129# 7779# 7394# 17# 13# 2.1 0.17 0.05 0.04 0.017 0.018 0.30 3# 6# 11# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ 20930# 17730 12200 7840 4583 1815 * 2220.7 6867 11300# 15890# 1190# 990 260 160 10 9 20740# 21220# 11110 12440 3140 5660 * 3652.4 267.6 13430 10660# 19860# 1060# 800# 410 110 40 40 21160# 15110 11410 6838 4204 255.8 * 2062.1 7126 12910 13850# 18690# 1920# 1750 120 10 10 0.8 24810# 15410# 15010 5700 7717 -1378.0 2366.3 * 7050.4 7599 17100# 13130# 1140# 1000# 720 40 16 2.2 0.6 18520# 15390# 9790 6644 1992.0 600.3 * 2930.34 7444 12300# 15640# 17330# 1000# 600# 100 8 1.2 1.9 1.9 7 230# 320# 1.8 1.9 120 130# 510# 0.5 17 500 590# 370# 0.6 20 110# 370# 0.30 14 160# 310# 570# Atomic mass µu 43 028660# 43 006190 42 987150 42 974050 42 965636 42 960716 42 958766.6 42 961150.7 42 968522 42 980650# 42 997710# 750# 1040 220 170 6 10 0.3 2.0 7 250# 240# 44 035260# 44 012990# 43 990210 43 978280 43 964924.0 43 961560 43 955481.8 43 959402.8 43 959690.1 43 974110 43 985550# 44 006870# 860# 750# 420 120 1.7 40 0.4 1.9 0.8 130 50# 540# 45 019220# 44 996510 44 980290 44 968040.0 44 960699 44 956186.6 44 955911.9 44 958125.6 44 965776 44 979640 44 994510# 45 014580# 860# 1870 130 0.6 11 0.4 0.9 1.1 18 540 320# 240# 46 027380# 46 000750# 45 984210 45 968090 45 961977 45 953692.6 45 955171.9 45 952631.6 45 960200.5 45 968359 45 986720# 46 000810# 970# 750# 770 40 17 2.4 0.9 0.9 1.1 21 120# 380# 47 008590# 46 988710# 46 972190 46 961678 46 954546.0 46 952407.5 46 951763.1 46 954908.9 46 962900 46 976100# 46 992890# 47 011490# 860# 640# 110 9 2.4 2.2 0.9 0.9 15 170# 280# 540# 352 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 32 31 30 29 28 27 26 25 24 23 22 21 20 16 17 18 19 20 21 22 23 24 25 26 27 28 48 S Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni x x x + 33 32 31 30 29 28 27 26 25 24 23 22 21 16 17 18 19 20 21 22 23 24 25 26 27 28 49 33 32 31 30 29 28 27 26 25 24 23 22 17 18 19 20 21 22 23 24 25 26 27 28 50 34 33 32 31 30 29 28 27 26 25 24 23 17 18 19 20 21 22 23 24 25 26 27 28 51 S Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni − +nn x x x x -n x x + -n − +n p4n x x x Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni x x + -nn -pn Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni x x x -3n -p2n -n +n 4n x x +3n x x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) 13200# -4700# -23720# -32124 -44214 -44496 -48487.7 -44475.4 -42819 -29320 -18160# 1640# 18400# 900# 700# 300# 24 4 5 0.8 2.6 7 110 70# 400# 500# 7536# 7892# 8272# 8430.9 8666.47 8656.04 8722.903 8623.01 8572.21 8274.7 8026# 7597# 7232# 19# 15# 6# 0.5 0.09 0.11 0.017 0.05 0.15 2.3 1# 8# 10# β− β− β− β− β− β− 22000# 300# -18150# -30320 -41289 -46552 -48558.8 -47956.9 -45330.5 -37616 -24580# -9580# 9000# 950# 800# 500# 70 4 4 0.8 1.2 2.4 24 150# 260# 400# 7367# 7794# 8154# 8386.7 8594.63 8686.07 8711.055 8682.806 8613.24 8439.8 8158# 7836# 7441# 19# 16# 10# 1.4 0.08 0.08 0.017 0.024 0.05 0.5 3# 5# 8# β− β− β− β− β− β− 7300# -14500# -25350 -39571 -44537 -51426.7 -49221.6 -50259.5 -42626.8 -34480 -17200# -3790# 900# 700# 280 9 16 0.8 1.0 1.0 1.0 60 170# 260# 7659# 8080# 8281 8549.80 8633.5 8755.618 8695.869 8700.981 8532.680 8354.0 7993# 7709# 18# 14# 6 0.19 0.3 0.016 0.020 0.020 0.021 1.2 3# 5# β− β− β− β− β− β− β− 13500# -7800# -22000# -35860 -43218 -49727.8 -52201.4 -51448.8 -48241.3 -40222 -27270# -11440# 1000# 700# 500# 90 20 1.0 1.0 1.0 1.0 15 150# 260# 7546# 7948# 8211# 8467.7 8596.6 8708.890 8742.051 8711.954 8633.723 8461.15 8192# 7866# 20# 14# 10# 1.8 0.4 0.019 0.020 0.020 0.020 0.29 3# 5# β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 17900# 19010# 8410# 12090 282 3992 * 4012.3 1656 13500 11160# 19800# 16760# 1140# 760# 300# 24 5 5 21700# 18440# 12170# 10970 5263.1 2006 * 601.9 2626.5 7715 13030# 15010# 18570# 1240# 950# 510# 70 2.9 4 21810# 10850# 14220 4966 6890 -2205.1 1037.9 * 7632.69 8150 17280# 13400# 1140# 750# 280 17 16 1.0 0.3 21290# 14210# 13860# 7350 6510 2473.5 * 752.58 3207.5 8019 12950# 15840# 1220# 860# 510# 100 20 1.1 2.4 8 110 130# 410# 640# 0.8 2.6 24 150# 300# 480# 0.23 60 180# 310# 0.24 0.4 15 150# 300# Atomic mass µu 48 014170# 47 994950# 47 974540# 47 965514 47 952534 47 952231 47 947946.3 47 952253.7 47 954032 47 968520 47 980500# 48 001760# 48 019750# 970# 750# 320# 26 4 6 0.9 2.7 8 120 80# 430# 540# 49 023620# 49 000320# 48 980520# 48 967450 48 955674 48 950024 48 947870.0 48 948516.1 48 951335.7 48 959618 48 973610# 48 989720# 49 009660# 1020# 860# 540# 80 4 4 0.9 1.2 2.6 26 160# 280# 430# 50 007840# 49 984430# 49 972780 49 957519 49 952188 49 944791.2 49 947158.5 49 946044.2 49 954238.2 49 962990 49 981540# 49 995930# 970# 750# 300 10 17 0.9 1.1 1.1 1.1 60 180# 280# 51 014490# 50 991630# 50 976380# 50 961500 50 953603 50 946615.0 50 943959.5 50 944767.4 50 948210.8 50 956820 50 970720# 50 987720# 1070# 750# 540# 100 22 1.0 1.1 1.1 1.1 16 160# 280# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 34 33 32 31 30 29 28 27 26 25 24 23 18 19 20 21 22 23 24 25 26 27 28 29 52 Ar K Ca Sc Ti V Cr Mn Fe Co Ni Cu x x x x -nn -n 35 34 33 32 31 30 29 28 27 26 25 24 18 19 20 21 22 23 24 25 26 27 28 29 53 35 34 33 32 31 30 29 28 27 26 25 24 19 20 21 22 23 24 25 26 27 28 29 30 54 36 35 34 33 32 31 30 29 28 27 26 25 19 20 21 22 23 24 25 26 27 28 29 30 55 36 35 34 33 32 31 30 29 28 27 26 25 20 21 22 23 24 25 26 27 28 29 30 31 56 Ar K Ca Sc Ti V Cr Mn Fe Co Ni Cu K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga +pn − x x x x x x x + +p +n p4n x x x x x x + -p 4n x x x x x x + -n +3n x x x x x x x − -pp x x x Mass excess (keV) Binding energy per nucleon (keV) 353 Beta-decay energy (keV) β− β− β− β− β− β− -3000# -16200# -32510 -40360 -49465 -51441.3 -55416.9 -50705.4 -48332 -33920# -22650# -2630# 900# 700# 700 190 7 1.0 0.8 2.0 7 70# 80# 260# 7858# 8097# 8396 8531 8691.57 8714.535 8775.944 8670.29 8609.60 8317# 8086# 7686# 17# 13# 13 4 0.14 0.019 0.015 0.04 0.13 1# 2# 5# 4600# -12000# -27900# -37620# -46830 -51849 -55284.7 -54687.9 -50945.3 -42645 -29370# -13460# 1000# 700# 500# 300# 100 3 0.8 0.8 1.8 18 160# 260# 7719# 8017# 8302# 8471# 8630.1 8710.09 8760.155 8734.133 8648.76 8477.4 8212# 7897# 19# 13# 9# 6# 1.9 0.06 0.015 0.015 0.03 0.3 3# 5# -5400# -23890# -34220 -45590 -49891 -56932.5 -55555.4 -56252.5 -48009.5 -39210 -21690# -6570# 900# 700# 370 120 15 0.8 1.3 0.7 0.7 50 210# 400# 7896# 8224# 8401 8596.9 8662.00 8777.914 8737.923 8736.344 8569.209 8391.8 8053# 7758# 17# 13# 7 2.3 0.28 0.014 0.023 0.013 0.013 0.9 4# 7# β− β− β− β− β− β− β− -270# -18120# -29580 -41670 -49150 -55107.5 -57710.6 -57479.4 -54027.6 -45336 -31620# -14920# 1000# 700# 740 150 100 0.8 0.7 0.7 0.7 11 300# 250# 7806# 8116# 8310 8516.0 8637.8 8731.884 8764.988 8746.560 8669.575 8497.31 8234# 7916# 18# 13# 13 2.8 1.8 0.014 0.012 0.012 0.013 0.20 5# 5# β− β− β− β− β− β− -13440# -25270# -38940 -46080 -55281.2 -56909.7 -60605.4 -56039.4 -53904 -38600# -25730# -4740# 900# 700# 200 200 1.9 0.7 0.7 2.1 11 140# 260# 260# 8032# 8229# 8459 8573 8723.19 8738.300 8790.323 8694.82 8642.71 8355# 8112# 7723# 16# 12# 3 4 0.03 0.012 0.012 0.04 0.20 2# 5# 5# β− β− β− β− β− β− β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 13200# 16310# 7850 9110 1976 3975.6 * 4711.5 2374 14420# 11260# 20030# 1140# 990# 720 190 7 1.0 16600# 15900# 9730# 9210# 5020 3436 * 596.8 3742.6 8300 13280# 15910# 1220# 860# 590# 310# 100 3 18490# 10330# 11380 4300 7042 -1377.2 697.1 * 8242.92 8800 17520# 15130# 1140# 790# 390 130 15 1.0 1.1 17850# 11460# 12090 7480 5960 2603.1 * 231.21 3451.8 8692 13710# 16700# 1220# 1020# 750 180 100 0.4 11830# 13670# 7140 9200 1628.5 3695.64 * 4566.0 2136 15300# 12870# 20990# 1140# 730# 280 200 2.0 0.21 1.9 6 70# 110# 270# 0.4 1.7 18 160# 310# 0.20 50 220# 450# 0.18 0.4 11 300# 390# 2.0 11 140# 300# 370# Atomic mass µu 51 996780# 51 982610# 51 965100 51 956680 51 946897 51 944775.5 51 940507.5 51 945565.5 51 948114 51 963590# 51 975680# 51 997180# 970# 750# 750 210 8 1.1 0.8 2.1 7 70# 90# 280# 53 004940# 52 987120# 52 970050# 52 959610# 52 949730 52 944338 52 940649.4 52 941290.1 52 945307.9 52 954219 52 968470# 52 985550# 1070# 750# 540# 320# 110 3 0.8 0.9 1.9 19 170# 280# 53 994200# 53 974350# 53 963260 53 951050 53 946440 53 938880.4 53 940358.9 53 939610.5 53 948459.6 53 957910 53 976710# 53 992950# 970# 750# 400 130 16 0.8 1.4 0.7 0.8 50 230# 430# 54 999710# 54 980550# 54 968240 54 955270 54 947230 54 940839.7 54 938045.1 54 938293.4 54 941999.0 54 951330 54 966050# 54 983980# 1070# 750# 790 160 110 0.8 0.7 0.7 0.8 12 320# 270# 55 985570# 55 972870# 55 958200 55 950530 55 940653.1 55 938904.9 55 934937.5 55 939839.3 55 942132 55 958560# 55 972380# 55 994910# 970# 750# 210 220 2.0 0.7 0.7 2.3 12 150# 280# 280# 354 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 37 36 35 34 33 32 31 30 29 28 27 26 20 21 22 23 24 25 26 27 28 29 30 31 57 Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga x x x x x 37 36 35 34 33 32 31 30 29 28 27 26 21 22 23 24 25 26 27 28 29 30 31 32 58 38 37 36 35 34 33 32 31 30 29 28 27 21 22 23 24 25 26 27 28 29 30 31 32 59 39 38 37 36 35 34 33 32 31 30 29 28 27 21 22 23 24 25 26 27 28 29 30 31 32 33 60 Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge 2n−p x x x x x x + − −− x x Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge x x x x 3p2n -n Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As x x x x + -nn -n -p − x x − -pp x x x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -7120# -20690# -33540 -44190 -52524.1 -57486.8 -60180.1 -59344.2 -56082.0 -47310 -32800# -15900# 1000# 700# 460 230 1.9 1.8 0.7 0.7 1.8 16 100# 260# 7922# 8146# 8358 8531 8663.38 8736.72 8770.249 8741.858 8670.90 8503.27 8235# 7925# 18# 12# 8 4 0.03 0.03 0.012 0.013 0.03 0.27 2# 5# β− β− β− β− β− β− -15170# -30770# -40210 -51830 -55910 -62153.4 -59845.9 -60227.7 -51662.1 -42300 -23990# -8370# 800# 700# 250 200 30 0.7 1.2 0.6 1.6 50 210# 320# 8050# 8305# 8454 8641 8698.0 8792.221 8738.947 8732.041 8570.869 8395.9 8067# 7784# 14# 12# 4 3 0.5 0.012 0.022 0.011 0.027 0.9 4# 5# β− β− β− β− β− β− β− -10040# -25220# -37070 -47890 -55480 -60663.1 -62228.4 -61155.7 -56357.2 -47260 -34120# -17000# 900# 700# 310 240 30 0.7 0.6 0.6 0.8 40 170# 280# 7963# 8207# 8395 8565 8680.1 8754.743 8768.013 8736.570 8641.981 8474.5 8239# 7935# 15# 12# 5 4 0.5 0.012 0.011 0.010 0.013 0.6 3# 5# β− β− β− β− β− β− -4000# -21650# -32580 -46500 -53180 -61412 -61649.0 -64472.1 -58344.1 -54188 -40000# -27770# -6400# 900# 800# 470 210 90 3 0.6 0.6 1.7 11 110# 230# 600# 7864# 8145# 8314 8533 8631.6 8755.83 8746.745 8780.757 8665.585 8583.27 8334# 8117# 7748# 15# 13# 8 4 1.4 0.06 0.010 0.010 0.028 0.18 2# 4# 10# β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 13570# 12860# 10640 8340 4962.7 2693.3 * 835.9 3262.2 8772 14510# 16900# 1220# 830# 510 230 2.6 1.9 15590# 9440# 11630 4070 6250 -2307.5 381.8 * 8565.6 9360 18310# 15610# 1060# 740# 320 210 30 1.2 1.1 15170# 11850# 10820 7590 5180 1565.3 * 1072.76 4798.4 9100 13140# 17120# 1140# 760# 390 250 30 0.6 17650# 10930# 13930 6670 8230 237 2823.07 * 6128.0 4156 14190# 12230# 21370# 1210# 930# 520 230 90 3 0.21 0.5 1.9 16 100# 280# 1.4 50 220# 380# 0.19 0.5 40 170# 330# 1.6 11 110# 260# 640# Atomic mass µu 56 992360# 56 977790# 56 963990 56 952560 56 943613.0 56 938285.4 56 935394.0 56 936291.4 56 939793.5 56 949211 56 964790# 56 982930# 1070# 750# 490 250 2.0 2.0 0.7 0.8 1.9 17 110# 280# 57 983710# 57 966970# 57 956830 57 944350 57 939980 57 933275.6 57 935752.8 57 935342.9 57 944538.5 57 954590 57 974250# 57 991010# 860# 750# 270 220 30 0.8 1.3 0.7 1.7 50 230# 340# 58 989220# 58 972930# 58 960210 58 948590 58 940440 58 934875.5 58 933195.0 58 934346.7 58 939498.0 58 949260 58 963370# 58 981750# 970# 750# 330 260 30 0.8 0.7 0.7 0.8 40 180# 300# 59 995710# 59 976760# 59 965030 59 950080 59 942910 59 934072 59 933817.1 59 930786.4 59 937365.0 59 941827 59 957060# 59 970190# 59 993130# 970# 860# 510 230 90 4 0.7 0.7 1.8 11 120# 250# 640# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 39 38 37 36 35 34 33 32 31 30 29 28 22 23 24 25 26 27 28 29 30 31 32 33 61 Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As x x x x +n2p p2n 40 39 38 37 36 35 34 33 32 31 30 29 22 23 24 25 26 27 28 29 30 31 32 33 62 Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As x x x x +pp + 41 40 39 38 37 36 35 34 33 32 31 30 22 23 24 25 26 27 28 29 30 31 32 33 63 Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As x x x x x +p 41 40 39 38 37 36 35 34 33 32 31 23 24 25 26 27 28 29 30 31 32 33 64 V Cr Mn Fe Co Ni Cu Zn Ga Ge As x x x x + 42 41 40 39 38 37 36 35 34 33 32 31 23 24 25 26 27 28 29 30 31 32 33 34 65 V Cr Mn Fe Co Ni Cu Zn Ga Ge As Se p2n +3n − x x − +nn − x x x x x x -p x x x x 3p2n εp -p x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) β− β− β− β− β− β− -15650# -29360# -42180 -51560 -58921 -62898.4 -64220.9 -61983.6 -56345 -47090 -33730# -18050# 900# 400# 250 230 20 0.9 0.6 1.0 16 50 300# 600# 8046# 8258# 8455 8596 8703.8 8756.154 8765.009 8715.507 8610.25 8445.7 8214# 7944# 15# 7# 4 4 0.3 0.015 0.010 0.016 0.27 0.9 5# 10# -11650# -24420# -40410 -48040 -58901 -61432 -66746.1 -62798 -61171 -52000 -42240# -24960# 900# 500# 340 220 14 20 0.6 4 10 28 140# 300# 7982# 8175# 8420 8531 8693.25 8721.4 8794.549 8718.25 8679.40 8518.9 8349# 8058# 15# 8# 5 4 0.23 0.3 0.010 0.07 0.16 0.4 2# 5# -5200# -20910# -35530# -46350 -55550 -61840 -65512.6 -65579.5 -62213.0 -56547.1 -46910# -33820# 1000# 600# 300# 260 170 20 0.6 0.6 1.6 1.3 200# 500# 7881# 8118# 8337# 8497 8630.1 8717.6 8763.489 8752.134 8686.279 8583.926 8419# 8198# 16# 9# 5# 4 2.7 0.3 0.009 0.009 0.025 0.021 3# 8# β− β− β− β− β− β− β− -15400# -33150# -42620 -54770 -59793 -67099.3 -65424.2 -66003.6 -58834.3 -54350 -39520# 700# 400# 270 280 20 0.6 0.6 0.7 2.0 30 360# 8031# 8296# 8432 8609 8675.5 8777.467 8739.070 8735.898 8611.65 8529.4 8285# 11# 6# 4 4 0.3 0.010 0.009 0.011 0.03 0.5 6# β− β− β− β− β− β− β− -11250# -27800# -40670 -50880 -59170 -65126.1 -67263.7 -65911.6 -62657.2 -56410 -46980# -32920# 800# 500# 540 240 13 0.6 0.7 0.7 0.8 100 300# 600# 7968# 8210# 8396 8541 8656.65 8736.246 8757.096 8724.259 8662.154 8554.1 8397# 8169# 12# 8# 8 4 0.20 0.010 0.010 0.011 0.013 1.5 5# 9# β− β− β− β− β− β− β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 13710# 12820# 9380 7370 3977 1322.5 * 2237.3 5638 9260 13360# 15680# 990# 480# 340 230 20 0.8 12770# 15990# 7620 10860 2531 5315 * 3948 1626 9171 9760# 17280# 1030# 610# 400 220 25 20 15710# 14620# 10820# 9190 6290 3672 66.975 * 3366.5 5665.9 9640# 13090# 1160# 670# 390# 310 170 20 0.015 17750# 9470# 12150 5020 7307 -1675.03 579.4 * 7169.3 4480 14830# 810# 480# 380 280 20 0.20 0.7 16540# 12880# 10210 8290 5956 2137.6 * 1352.1 3254.4 6240 9430# 14060# 950# 740# 590 240 13 0.7 1.0 16 50 300# 670# 4 11 26 140# 330# 1.6 2.1 200# 540# 2.1 30 360# 0.3 0.7 100 320# 670# 355 Atomic mass µu 60 983200# 60 968480# 60 954720 60 944650 60 936745 60 932475.8 60 931056.0 60 933457.8 60 939511 60 949450 60 963790# 60 980620# 970# 430# 270 240 21 1.0 0.7 1.1 17 60 320# 640# 61 987490# 61 973780# 61 956610 61 948430 61 936767 61 934051 61 928345.1 61 932584 61 934330 61 944175 61 954650# 61 973200# 970# 540# 360 240 16 21 0.6 4 11 30 150# 320# 62 994420# 62 977550# 62 961860# 62 950240 62 940370 62 933612 62 929669.4 62 929597.5 62 933211.6 62 939294.2 62 949640# 62 963690# 1070# 640# 320# 280 180 21 0.6 0.6 1.7 1.4 210# 540# 63 983470# 63 964410# 63 954250 63 941200 63 935810 63 927966.0 63 929764.2 63 929142.2 63 936838.7 63 941650 63 957570# 750# 430# 290 300 21 0.7 0.6 0.7 2.2 30 380# 64 987920# 64 970160# 64 956340 64 945380 64 936478 64 930084.3 64 927789.5 64 929241.0 64 932734.8 64 939440 64 949560# 64 964660# 860# 540# 580 260 14 0.7 0.7 0.7 0.9 110 320# 640# 356 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 42 41 40 39 38 37 36 35 34 33 32 24 25 26 27 28 29 30 31 32 33 34 66 Cr Mn Fe Co Ni Cu Zn Ga Ge As Se x x x x x 43 42 41 40 39 38 37 36 35 34 33 32 24 25 26 27 28 29 30 31 32 33 34 35 67 43 42 41 40 39 38 37 36 35 34 33 25 26 27 28 29 30 31 32 33 34 35 68 44 43 42 41 40 39 38 37 36 35 34 33 25 26 27 28 29 30 31 32 33 34 35 36 69 44 43 42 41 40 39 38 37 36 35 34 26 27 28 29 30 31 32 33 34 35 36 70 Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br Mn Fe Co Ni Cu Zn Ga Ge As Se Br Mn Fe Co Ni Cu Zn Ga Ge As Se Br Kr Fe Co Ni Cu Zn Ga Ge As Se Br Kr − − x x x x x x x x -n2p − x x x x x x x − − x -p x x x x x -n -p x x x x x − x − −− Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) β− β− β− β− β− β− -24800# -36250# -49570 -56110 -66006.3 -66258.3 -68899.4 -63724 -61620 -51500 -41720# 600# 400# 300 250 1.4 0.7 0.9 3 30 680 300# 8163# 8324# 8514 8601 8739.508 8731.472 8759.636 8669.37 8625.7 8460 8300# 9# 6# 5 4 0.021 0.010 0.014 0.05 0.5 10 5# -19050# -33400# -45690 -55060 -63742.7 -67318.8 -67880.4 -66879.7 -62658 -56650 -46490# -32800# 700# 500# 420 320 2.9 1.2 0.9 1.3 5 100 200# 500# 8075# 8278# 8450 8578 8695.75 8737.447 8734.154 8707.540 8632.85 8531.5 8368# 8152# 10# 8# 6 5 0.04 0.018 0.014 0.019 0.07 1.5 3# 8# β− β− β− β− β− β− -28600# -43130 -51350 -63463.8 -65567.0 -70007.2 -67086.1 -66980 -58900 -54210 -38640# 600# 700 320 3.0 1.6 1.0 1.5 6 40 30 360# 8204# 8406 8516 8682.47 8701.890 8755.682 8701.220 8688.15 8557.8 8477.4 8237# 9# 10 5 0.04 0.023 0.014 0.023 0.09 0.6 0.5 5# β− β− β− β− β− -25300# -38400# -50000 -59979 -65736.2 -68418.0 -69327.8 -67100.6 -63090 -56300 -46480# -32440# 800# 500# 340 4 1.4 1.0 1.2 1.3 30 30 110# 400# 8155# 8333# 8490 8623.10 8695.203 8722.731 8724.578 8680.962 8611.5 8501.8 8348# 8133# 12# 7# 5 0.05 0.020 0.014 0.017 0.019 0.5 0.5 2# 6# -35900# -45640 -59150 -62976.1 -69564.6 -68910.1 -70563.1 -64340 -62050 -51430# -41680# 600# 840 350 1.6 2.0 1.2 1.0 50 60 310# 390# 8294# 8422 8603 8646.861 8729.806 8709.279 8721.717 8621.7 8577.7 8415# 8264# 9# 12 5 0.023 0.028 0.017 0.015 0.7 0.9 4# 5# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ 11460# 13320# 6540 9890 252.0 2641.2 * 5175 2100 10120 9780# 720# 500# 390 250 1.6 1.0 14350# 12290# 9370 8680 3576 561.7 * 1000.8 4222 6010 10160# 13690# 860# 650# 520 320 3 1.5 14530# 8220 12110 2103 4440.2 * 2921.1 106 8080 4680 15570# 920# 770 320 3 1.8 13100# 11610# 9980 5758 2681.8 909.8 * 2227.2 4010 6790 9830# 14040# 950# 610# 340 4 1.7 1.5 9740# 13510 3830 6588.5 -654.6 1653.0 * 6220 2300 10620# 9750# 1030# 910 350 2.5 1.6 1.6 3 30 680 740# 1.2 5 100 220# 540# 1.2 6 40 50 360# 0.5 30 40 110# 410# 50 80 300# 480# Atomic mass µu 65 973380# 65 961080# 65 946780 65 939760 65 929139.3 65 928868.8 65 926033.4 65 931589 65 933840 65 944710 65 955210# 640# 430# 320 270 1.5 0.7 1.0 3 30 730 320# 66 979550# 66 964140# 66 950950 66 940890 66 931569 66 927730.3 66 927127.3 66 928201.7 66 932734 66 939190 66 950090# 66 964790# 750# 540# 450 340 3 1.3 1.0 1.4 5 110 210# 540# 67 969300# 67 953700 67 944870 67 931869 67 929610.9 67 924844.2 67 927980.1 67 928094 67 936770 67 941800 67 958520# 640# 750 340 3 1.7 1.0 1.6 7 50 40 380# 68 972840# 68 958780# 68 946320 68 935610 68 929429.3 68 926550.3 68 925573.6 68 927964.5 68 932270 68 939560 68 950110# 68 965180# 860# 540# 360 4 1.5 1.0 1.3 1.4 30 40 110# 430# 69 961460# 69 951000 69 936500 69 932392.3 69 925319.3 69 926022.0 69 924247.4 69 930920 69 933390 69 944790# 69 955260# 640# 900 370 1.7 2.1 1.3 1.1 50 70 330# 410# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 45 44 43 42 41 40 39 38 37 36 35 34 26 27 28 29 30 31 32 33 34 35 36 37 71 Fe Co Ni Cu Zn Ga Ge As Se Br Kr Rb x x x x -n 46 45 44 43 42 41 40 39 38 37 36 35 26 27 28 29 30 31 32 33 34 35 36 37 72 Fe Co Ni Cu Zn Ga Ge As Se Br Kr Rb x x x x + 46 45 44 43 42 41 40 39 38 37 36 35 27 28 29 30 31 32 33 34 35 36 37 38 73 47 46 45 44 43 42 41 40 39 38 37 36 27 28 29 30 31 32 33 34 35 36 37 38 74 48 47 46 45 44 43 42 41 40 39 38 37 27 28 29 30 31 32 33 34 35 36 37 38 75 − − x − x − x Co Ni Cu Zn Ga Ge As Se Br Kr Rb Sr x x x +n2p x Co Ni Cu Zn Ga Ge As Se Br Kr Rb Sr x x x +pp x Co Ni Cu Zn Ga Ge As Se Br Kr Rb Sr x x x + x -n x -p x − x − x x − Mass excess (keV) Binding energy per nucleon (keV) -31000# -43870 -55200 -62711.1 -67327 -70140.2 -69907.7 -67894 -63120 -57060 -46920 -32300# 800# 840 370 1.5 10 1.0 1.0 4 30 570 650 500# 8221# 8392 8540 8635.022 8689.01 8717.620 8703.326 8663.95 8585.6 8489 8336 8119# 11# 12 5 0.021 0.14 0.014 0.014 0.06 0.4 8 9 7# -28300# -39300# -53940 -59783.0 -68131 -68589.4 -72585.9 -68230 -67894 -59020 -53941 -38120# 800# 600# 440 1.4 6 1.0 1.6 4 12 60 8 500# 8182# 8324# 8516 8586.525 8691.61 8687.104 8731.745 8660.38 8644.85 8510.7 8429.32 8199# 11# 8# 6 0.019 0.08 0.014 0.023 0.06 0.17 0.8 0.11 7# -37040# -49860# -58987 -65410 -69699.3 -71297.5 -70957 -68218 -63630 -56552 -46050# -31700# 700# 300# 4 40 1.7 1.6 4 11 50 7 150# 600# 8289# 8454# 8568.56 8645.8 8693.873 8705.049 8689.66 8641.42 8567.8 8460.18 8306# 8098# 10# 4# 0.05 0.5 0.023 0.022 0.05 0.15 0.7 0.09 2# 8# -32250# -48370# -56006 -65710 -68050 -73422.4 -70860.0 -72212.7 -65306 -62331.5 -51917 -40700# 800# 400# 6 50 4 1.6 2.3 1.7 15 2.0 4 500# 8222# 8429# 8521.56 8642.1 8663.17 8725.200 8680.00 8687.708 8583.80 8533.034 8381.73 8220# 11# 5# 0.08 0.6 0.05 0.022 0.03 0.023 0.20 0.028 0.05 7# -29500# -43900# -54120 -62470 -68464.6 -71856.4 -73032.4 -72169.0 -69139 -64324 -57222 -46620 800# 400# 980 70 2.4 1.6 1.8 1.7 14 8 7 220 8183# 8365# 8490 8591.3 8660.81 8695.602 8700.850 8678.907 8628.08 8553.44 8448.32 8296.6 11# 5# 13 0.9 0.03 0.022 0.024 0.022 0.19 0.11 0.10 2.9 Beta-decay energy (keV) β− β− β− β− β− β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β− β− β− β− β− β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ 12870# 11330 7510 4616 2813 * 232.51 2013 4780 6050 10140 14620# 1160# 920 370 10 10 11000# 14640# 5840 8348 458 3996.5 * 4356 335 8880 5070 15820# 1000# 740# 440 6 6 1.8 12830# 9120# 6420 4290 1598.2 * 341 2739 4590 7080 10500# 14350# 760# 300# 40 40 2.3 16120# 7630# 9700 2340 5373 -2562.5 1352.8 * 6907 2975 10414 11220# 900# 400# 50 50 4 1.7 1.8 14400# 10220# 8350 6000 3391.8 1176.0 * 863.4 3030 4815 7102 10600 900# 1060# 980 70 2.9 1.0 0.22 4 30 570 320 820# 4 13 60 60 500# 4 10 50 50 150# 620# 15 15 4 500# 0.8 14 16 11 220 357 Atomic mass µu 70 966720# 70 952900 70 940740 70 932676.8 70 927722 70 924701.3 70 924951.0 70 927112 70 932240 70 938740 70 949630 70 965320# 860# 900 400 1.6 11 1.1 1.1 5 30 610 700 540# 71 969620# 71 957810# 71 942090 71 935820.3 71 926858 71 926366.3 71 922075.8 71 926752 71 927112 71 936640 71 942092 71 959080# 860# 640# 470 1.5 7 1.1 1.8 5 13 60 9 540# 72 960240# 72 946470# 72 936675 72 929780 72 925174.7 72 923458.9 72 923825 72 926765 72 931690 72 939289 72 950560# 72 965970# 750# 320# 4 40 1.8 1.8 4 11 50 7 160# 640# 73 965380# 73 948070# 73 939875 73 929460 73 926946 73 921177.8 73 923928.7 73 922476.4 73 929891 73 933084.4 73 944265 73 956310# 860# 430# 7 50 4 1.8 2.5 1.8 16 2.2 4 540# 74 968330# 74 952870# 74 941900 74 932940 74 926500.2 74 922858.9 74 921596.5 74 922523.4 74 925776 74 930946 74 938570 74 949950 860# 430# 1050 80 2.6 1.8 2.0 1.8 15 9 8 240 358 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 48 47 46 45 44 43 42 41 40 39 38 37 28 29 30 31 32 33 34 35 36 37 38 39 76 Ni Cu Zn Ga Ge As Se Br Kr Rb Sr Y x x + x 49 48 47 46 45 44 43 42 41 40 39 38 28 29 30 31 32 33 34 35 36 37 38 39 77 50 49 48 47 46 45 44 43 42 41 40 39 38 28 29 30 31 32 33 34 35 36 37 38 39 40 78 50 49 48 47 46 45 44 43 42 41 40 39 29 30 31 32 33 34 35 36 37 38 39 40 79 − x x x Ni Cu Zn Ga Ge As Se Br Kr Rb Sr Y x x + x -n Ni Cu Zn Ga Ge As Se Br Kr Rb Sr Y Zr x x + x -nn +pn Cu Zn Ga Ge As Se Br Kr Rb Sr Y Zr x + + + +p -n +n − − x x x -p − x x x x x − x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) β− β− β− β− β− β− -41610# -50976 -62140 -66296.6 -73213.0 -72289.5 -75252.1 -70289 -69014 -60479.8 -54240 -38700# 900# 7 80 2.0 1.7 1.8 1.7 9 4 1.9 40 500# 8331# 8443.53 8580.1 8624.526 8705.238 8682.792 8711.478 8635.88 8608.81 8486.225 8393.9 8179# 12# 0.09 1.1 0.026 0.022 0.024 0.022 0.12 0.05 0.025 0.5 7# -36750# -48580# -58720 -65992.3 -71214.0 -73916.6 -74599.6 -73235 -70169.4 -64825 -57804 -46910# 500# 400# 120 2.4 1.7 2.3 1.7 3 2.0 7 9 60# 8264# 8408# 8529.1 8613.39 8671.044 8695.981 8694.691 8666.81 8616.836 8537.26 8435.93 8284# 7# 5# 1.6 0.03 0.022 0.030 0.021 0.04 0.025 0.10 0.12 1# -34300# -44750# -57340 -63706.6 -71862 -72817 -77026.1 -73452 -74179.7 -66936 -63174 -52530# -41700# 1100# 400# 90 2.4 4 10 1.7 4 1.1 7 7 400# 500# 8230# 8354# 8505.6 8577.14 8671.66 8673.88 8717.808 8661.96 8661.256 8558.36 8500.10 8354# 8205# 14# 5# 1.2 0.03 0.05 0.13 0.021 0.05 0.014 0.10 0.10 5# 6# β− β− β− β− β− β− β− β− -42330# -53420# -62510 -69490 -73637 -75917.6 -76068.5 -74443 -70803 -65477 -58360 -47360# 500# 260# 100 90 6 1.7 2.0 4 6 8 450 400# 8320# 8450# 8555.6 8634.0 8676.62 8695.593 8687.600 8657.12 8601.15 8523.82 8424 8275# 6# 3# 1.2 1.1 0.07 0.021 0.026 0.05 0.08 0.11 6 5# β− β− β− β− β− β− β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 9370# 11160 4160 6916.4 -923.5 2962.5 * 4963 1275 8534 6240 15540# 900# 80 80 2.6 0.8 0.8 9 10 4 40 500# 11830# 10150# 7270 5221.7 2702.5 683.0 * 1364.7 3065 5345 7020 10900# 640# 420# 120 3.0 1.8 1.8 10450# 12590# 6360 8156 955 4209 -3574 727 * 7243 3762 10650# 10820# 1170# 410# 90 5 10 10 4 4 11090# 9090# 6980 4150 2281 150.9 * 1626 3639 5327 7120 11000# 570# 240# 40 90 5 1.7 2.8 4 8 12 60# 8 11 400# 640# 3 7 10 450 600# Atomic mass µu 75 955330# 75 945275 75 933290 75 928827.6 75 921402.6 75 922394.0 75 919213.6 75 924541 75 925910 75 935072.2 75 941770 75 958450# 970# 7 90 2.1 1.8 2.0 1.8 10 4 2.0 40 540# 76 960550# 76 947850# 76 936960 76 929154.3 76 923548.6 76 920647.3 76 919914.0 76 921379 76 924670.0 76 930408 76 937945 76 949650# 540# 430# 130 2.6 1.8 2.5 1.8 3 2.1 8 10 70# 77 963180# 77 951960# 77 938440 77 931608.2 77 922853 77 921827 77 917309.1 77 921146 77 920364.8 77 928141 77 932180 77 943610# 77 955230# 1180# 430# 100 2.6 4 11 1.8 4 1.2 8 8 430# 540# 78 954560# 78 942650# 78 932890 78 925400 78 920948 78 918499.1 78 918337.1 78 920082 78 923989 78 929708 78 937350 78 949160# 540# 280# 110 100 6 1.8 2.2 4 6 9 480 430# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 51 50 49 48 47 46 45 44 43 42 41 40 29 30 31 32 33 34 35 36 37 38 39 40 80 Cu Zn Ga Ge As Se Br Kr Rb Sr Y Zr x + + 51 50 49 48 47 46 45 44 43 42 41 40 30 31 32 33 34 35 36 37 38 39 40 41 81 52 51 50 49 48 47 46 45 44 43 42 41 30 31 32 33 34 35 36 37 38 39 40 41 82 53 52 51 50 49 48 47 46 45 44 43 42 41 30 31 32 33 34 35 36 37 38 39 40 41 42 83 − x x x Zn Ga Ge As Se Br Kr Rb Sr Y Zr Nb x + + +p -n Zn Ga Ge As Se Br Kr Rb Sr Y Zr Nb x x + + Zn Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo x − εp -p − − x x x x + -n − − − − x Mass excess (keV) Binding energy per nucleon (keV) 359 Beta-decay energy (keV) -36450# -51840 -59140 -69515 -72159 -77759.9 -75889.5 -77892.5 -72173 -70308 -61220 -55520 600# 170 120 28 23 2.0 2.0 1.5 7 7 180 1490 8243# 8426.0 8507.3 8627.3 8650.59 8710.819 8677.659 8692.917 8611.64 8578.56 8455.1 8374 7# 2.2 1.5 0.4 0.29 0.025 0.025 0.018 0.09 0.08 2.2 19 β− β− β− β− β− β− β− -46130# -57980 -66300 -72533 -76389.5 -77974.8 -77694.0 -75455 -71528 -66020 -58490 -47480# 300# 190 120 6 2.0 2.0 2.0 6 6 60 170 1500# 8351# 8487.7 8580.8 8648.06 8686.005 8695.918 8682.793 8645.49 8587.35 8509.7 8407.1 8261# 4# 2.4 1.5 0.07 0.025 0.024 0.025 0.07 0.08 0.8 2.1 18# β− β− β− β− β− -42460# -53100# -65620 -70320 -77594.0 -77496.5 -80589.5 -76188.2 -76008 -68190 -64190# -52970# 500# 300# 240 200 2.0 1.9 1.8 2.8 6 100 230# 300# 8303# 8423# 8566.3 8614.1 8693.198 8682.468 8710.647 8647.43 8635.70 8530.8 8473# 8326# 6# 4# 3.0 2.4 0.025 0.024 0.022 0.03 0.07 1.3 3# 4# -36300# -49390# -60900# -69880 -75341 -79009 -79981.7 -79075 -76795 -72330 -66460 -58960 -47750# 500# 300# 200# 220 4 4 2.8 6 10 40 100 310 500# 8226# 8374# 8503# 8602.2 8658.56 8693.33 8695.62 8675.27 8638.38 8575.1 8495.0 8395 8251# 6# 4# 2# 2.7 0.04 0.05 0.03 0.07 0.12 0.5 1.2 4 6# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ 15400# 7290 10380 2644 5601 -1870.5 2003.0 * 5720 1865 9090 5700 11860# 8320 6230 3856 1585.3 * 280.8 2239 3927 5510 7530 11010# 620# 120 120 19 23 0.3 2.4 7 10 180 1500 360# 150 120 5 2.2 0.5 6 9 60 180 1510# 10650# 12520# 4700 7270 -97.5 3093.0 * 4401 180 7820 4000# 11220# 590# 390# 140 200 2.1 1.0 13090# 11510# 8980# 5460 3668 973 * 907 2279 4470 5870 7500 11210# 590# 360# 290# 220 5 4 3 6 100 200# 370# 7 8 40 90 300 590# Atomic mass µu 79 960870# 79 944340 79 936520 79 925370 79 922534 79 916521.3 79 918529.3 79 916379.0 79 922519 79 924521 79 934280 79 940400 640# 180 130 30 25 2.1 2.2 1.6 7 7 190 1600 80 950480# 80 937750 80 928820 80 922132 80 917992.5 80 916290.6 80 916592.0 80 918996 80 923212 80 929130 80 937210 80 949030# 320# 210 130 6 2.2 2.1 2.1 6 7 70 180 1610# 81 954420# 81 942990# 81 929550 81 924500 81 916699.4 81 916804.1 81 913483.6 81 918208.6 81 918402 81 926790 81 931090# 81 943130# 540# 320# 260 210 2.2 2.1 1.9 3.0 6 110 240# 320# 82 961030# 82 946980# 82 934620# 82 924980 82 919118 82 915180 82 914136 82 915110 82 917557 82 922350 82 928650 82 936710 82 948740# 540# 320# 210# 240 4 5 3 6 11 50 100 340 540# 360 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 53 52 51 50 49 48 47 46 45 44 43 42 31 32 33 34 35 36 37 38 39 40 41 42 84 Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo x x + 54 53 52 51 50 49 48 47 46 45 44 43 42 31 32 33 34 35 36 37 38 39 40 41 42 43 85 55 54 53 52 51 50 49 48 47 46 45 44 43 31 32 33 34 35 36 37 38 39 40 41 42 43 86 55 54 53 52 51 50 49 48 47 46 45 44 43 32 33 34 35 36 37 38 39 40 41 42 43 44 87 Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru − x x x x x x + + x − − εp x x x x + + x − 4n − − x x x + + -n − +3n − − x x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) β− β− β− β− β− β− β− -44110# -58250# -66080# -75952 -77799 -82431.0 -79750.0 -80644 -74160 -71490# -61880# -55810# 400# 300# 300# 15 15 2.8 2.8 3 90 200# 300# 400# 8308# 8467# 8551# 8658.84 8671.52 8717.35 8676.12 8677.44 8590.9 8550# 8426# 8344# 5# 4# 4# 0.17 0.17 0.03 0.03 0.04 1.1 2# 4# 5# -40050# -53070# -63320# -72428 -78610 -81480.3 -82167.331 -81102.6 -77842 -73150 -67150 -59100# -47670# 500# 400# 200# 30 19 1.9 0.011 2.8 19 100 220 280# 400# 8257# 8401# 8513# 8610.5 8674.00 8698.562 8697.441 8675.71 8628.15 8563.7 8483.9 8380# 8236# 6# 5# 2# 0.4 0.22 0.023 0.000 0.03 0.22 1.2 2.6 3# 5# β− β− β− β− β− β− -34350# -49840# -59150# -70541 -75640 -83265.57 -82747.02 -84523.6 -79284 -77800 -69830 -64560 -53210# 800# 500# 300# 16 11 0.10 0.20 1.1 14 30 90 440 300# 8189# 8360# 8459# 8582.26 8632.45 8712.027 8696.901 8708.461 8638.43 8612.1 8510.3 8440 8299# 9# 6# 3# 0.18 0.13 0.001 0.002 0.012 0.16 0.3 1.0 5 3# β− β− β− β− β− β− β− -44240# -55980# -66580 -73857 -80709.43 -84597.795 -84880.4 -83018.7 -79348 -74180 -67690 -59120# -47340# 500# 300# 40 18 0.27 0.012 1.1 1.6 8 60 220 300# 600# 8292# 8418# 8530.9 8605.51 8675.282 8710.983 8705.239 8674.848 8623.67 8555.3 8471.7 8364# 8220# 6# 3# 0.5 0.20 0.003 0.000 0.012 0.018 0.10 0.7 2.6 3# 7# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ 14140# 7840# 9870# 1848 4632 -2681.0 894 * 6490 2670# 9610# 6070# 500# 420# 300# 20 14 2.3 3 13010# 10260# 9110# 6182 2870 687.1 * 1064.8 3260 4690 6000 8050# 11440# 640# 450# 200# 23 19 1.9 15490# 9310# 11390# 5099 7626 -518.55 1776.6 * 5240 1480 7980 5270 11350# 11750# 10600# 7280 6852 3888.37 282.6 * 1861.7 3671 5170 6490 8570# 11780# 90 220# 360# 500# 2.8 19 100 200 360# 490# 950# 590# 300# 11 11 0.22 1.1 14 30 80 430 530# 590# 300# 40 18 0.27 1.1 1.1 8 60 210 370# 670# Atomic mass µu 83 952650# 83 937470# 83 929060# 83 918462 83 916479 83 911507 83 914385 83 913425 83 920390 83 923250# 83 933570# 83 940090# 430# 320# 320# 16 16 3 3 3 100 210# 320# 430# 84 957000# 84 943030# 84 932020# 84 922250 84 915608 84 912527.3 84 911789.738 84 912933 84 916433 84 921470 84 927910 84 936550# 84 948830# 540# 430# 210# 30 21 2.1 0.012 3 20 110 240 300# 430# 85 963120# 85 946490# 85 936500# 85 924272 85 918798 85 910610.73 85 911167.42 85 909260.2 85 914886 85 916470 85 925040 85 930700 85 942880# 860# 540# 320# 17 12 0.11 0.21 1.2 15 30 90 470 320# 86 952510# 86 939900# 86 928520 86 920711 86 913354.86 86 909180.527 86 908877.1 86 910875.7 86 914816 86 920360 86 927330 86 936530# 86 949180# 540# 320# 40 19 0.29 0.013 1.2 1.7 9 70 240 320# 640# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 56 55 54 53 52 51 50 49 48 47 46 45 44 32 33 34 35 36 37 38 39 40 41 42 43 44 88 Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru x x + + -nn -n 57 56 55 54 53 52 51 50 49 48 47 46 45 44 32 33 34 35 36 37 38 39 40 41 42 43 44 45 89 57 56 55 54 53 52 51 50 49 48 47 46 45 33 34 35 36 37 38 39 40 41 42 43 44 45 90 58 57 56 55 54 53 52 51 50 49 48 47 46 45 33 34 35 36 37 38 39 40 41 42 43 44 45 46 91 Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd − +nn − 4n − x x x x + + x +3n − x -p x x + + − − − x x x x + + − +n − IT x − Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -40140# -51290# -63880 -70730 -79692 -82609.00 -87921.7 -84299.1 -83623 -76070 -72700 -62710# -55650# 700# 500# 50 40 13 0.16 1.1 1.9 10 100 20 200# 400# 8243# 8361# 8494.9 8563.9 8656.86 8681.114 8732.596 8682.540 8665.97 8571.3 8524.06 8402# 8313# 8# 6# 0.6 0.4 0.15 0.002 0.012 0.021 0.12 1.1 0.23 2# 5# β− β− β− β− β− β− -33690# -47140# -59200# -68570 -76730 -81713 -86209.1 -87701.7 -84869 -80650 -75004 -67840# -59510# -47660# 900# 500# 300# 60 50 5 1.1 2.6 4 27 15 200# 500# 450# 8169# 8311# 8438# 8534.1 8617.0 8664.19 8705.924 8713.904 8673.28 8617.1 8544.86 8456# 8353# 8211# 10# 6# 3# 0.7 0.6 0.06 0.012 0.029 0.04 0.3 0.17 2# 6# 5# β− β− β− β− β− β− β− -41450# -55930# -64620 -74970 -79362 -85941.6 -86487.5 -88767.3 -82656 -80167 -71210 -65310# -53220# 800# 400# 80 19 7 2.9 2.6 2.4 5 6 240 300# 500# 8245# 8397# 8485.1 8591.38 8631.48 8695.90 8693.272 8709.910 8633.32 8596.97 8488.7 8414# 8271# 9# 4# 0.9 0.21 0.07 0.03 0.028 0.026 0.05 0.07 2.7 3# 6# β− β− β− β− β− β− β− -36860# -50340# -61510 -71310 -77745 -83645 -86345.0 -87890.4 -86632 -82204 -75980 -68660# -59100# -47400# 900# 500# 70 60 8 5 2.9 2.3 4 11 200 580# 400# 570# 8193# 8332# 8446.3 8545.4 8607.56 8663.80 8684.87 8693.257 8670.84 8613.58 8536.6 8448# 8334# 8197# 10# 6# 0.8 0.6 0.09 0.05 0.03 0.026 0.04 0.12 2.2 6# 4# 6# β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 11150# 12590# 6850 8960 2917 5312.7 * 3622.6 676 7550 3370 9990# 7060# 860# 510# 30 40 13 1.1 1.5 10 100 100 200# 450# 13450# 12050# 9380# 8150 4990 4497 1492.6 * 2832.9 4218 5650 7160# 8330# 11860# 1030# 590# 300# 30 50 5 2.6 14480# 8690# 10350 4392 6580 545.9 2279.8 * 6111 2489 8960 5900# 12090# 900# 410# 80 17 7 1.4 1.7 13480# 11170# 9800 6440 5900 2700 1545.4 * 1258.0 4428 6220 7330# 9560# 11700# 2.8 27 30 200# 540# 670# 4 4 240 380# 590# 1030# 510# 40 60 9 4 1.8 3.0 12 200 620# 710# 400# 361 Atomic mass µu 87 956910# 87 944940# 87 931420 87 924070 87 914447 87 911315.59 87 905612.1 87 909501.1 87 910227 87 918330 87 921953 87 932680# 87 940260# 750# 540# 50 40 14 0.17 1.2 2.0 11 110 22 220# 430# 88 963830# 88 949390# 88 936450# 88 926390 88 917630 88 912278 88 907450.7 88 905848.3 88 908890 88 913418 88 919480 88 927170# 88 936110# 88 948840# 970# 540# 320# 60 60 6 1.2 2.7 4 29 17 220# 540# 480# 89 955500# 89 939960# 89 930630 89 919517 89 914802 89 907738 89 907151.9 89 904704.4 89 911265 89 913937 89 923560 89 929890# 89 942870# 860# 430# 80 20 7 3 2.7 2.5 5 7 260 320# 540# 90 960430# 90 945960# 90 933970 90 923450 90 916537 90 910203 90 907305 90 905645.8 90 906996 90 911750 90 918430 90 926290# 90 936550# 90 949110# 970# 540# 80 60 9 5 3 2.5 4 12 220 630# 430# 610# 362 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 59 58 57 56 55 54 53 52 51 50 49 48 47 46 33 34 35 36 37 38 39 40 41 42 43 44 45 46 92 As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd x x + + 59 58 57 56 55 54 53 52 51 50 49 48 47 46 34 35 36 37 38 39 40 41 42 43 44 45 46 47 93 60 59 58 57 56 55 54 53 52 51 50 49 48 47 34 35 36 37 38 39 40 41 42 43 44 45 46 47 94 60 59 58 57 56 55 54 53 52 51 50 49 48 47 35 36 37 38 39 40 41 42 43 44 45 46 47 48 95 Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd − x x x x x + -p − x x x x x + − +nn IT x x x x − x x x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -30930# -46650# -56580 -68785 -74772 -82868 -84813 -88453.9 -86448.3 -86805 -78935 -74410# -63360# -55500# 900# 600# 50 12 6 3 9 2.3 2.8 4 26 300# 400# 500# 8127# 8289# 8388.7 8512.85 8569.42 8648.91 8661.55 8692.622 8662.32 8657.69 8563.64 8506# 8377# 8283# 10# 6# 0.5 0.13 0.07 0.04 0.10 0.025 0.03 0.04 0.28 3# 4# 5# β− β− β− β− β− β− β− β− β− -40720# -53050# -64020 -72618 -80085 -84223 -87117.0 -87208.3 -86803 -83603 -77270 -69170# -59700# -46780# 800# 300# 100 8 8 11 2.3 2.4 4 4 90 400# 400# 600# 8223# 8347# 8456.8 8540.89 8612.77 8648.86 8671.566 8664.135 8651.37 8608.54 8532.0 8437# 8326# 8179# 9# 3# 1.1 0.08 0.08 0.11 0.025 0.026 0.04 0.04 0.9 4# 4# 6# β− β− β− β− β− β− β− -36800# -47800# -61140# -68553 -78840 -82348 -87266.8 -86364.5 -88409.7 -84154 -82568 -72940# -66350# -53300# 800# 400# 300# 8 7 7 2.4 2.4 1.9 4 13 450# 400# 500# 8180# 8289# 8422# 8492.66 8593.78 8622.77 8666.774 8648.852 8662.287 8608.69 8583.49 8473# 8394# 8247# 9# 4# 3# 0.09 0.08 0.08 0.026 0.026 0.020 0.05 0.14 5# 4# 5# β− β− β− β− β− β− β− β− -43900# -56040# -65854 -75117 -81207 -85657.8 -86781.9 -87707.5 -86017 -83450 -78340 -70150# -60100# -46700# 500# 400# 21 7 7 2.4 2.0 1.9 5 12 150 400# 400# 600# 8245# 8365# 8459.81 8549.08 8604.95 8643.569 8647.166 8648.674 8622.64 8587.39 8525.4 8431# 8317# 8168# 5# 4# 0.22 0.08 0.08 0.025 0.021 0.020 0.06 0.12 1.6 4# 4# 6# β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 15720# 9930# 12200 5987 8096 1946 3641 -2005.5 357 * 7870 4530# 11050# 7860# 1080# 600# 50 10 6 9 9 1.8 4 12330# 10970# 8600 7467 4139 2894 91.2 * 405 3201.0 6340 8090# 9470# 12920# 860# 310# 100 9 12 10 1.6 11000# 13340# 7410# 10287 3508 4918 -902.3 2045.2 * 4256 1586 9630# 6590# 13050# 900# 500# 300# 10 8 7 2.2 2.0 12140# 9820# 9263 6090 4451 1124.1 925.6 * 1691 2567 5110 8190# 10050# 13400# 640# 400# 21 8 7 1.8 0.5 26 300# 500# 640# 4 1.0 90 410# 570# 720# 4 13 450# 600# 640# 5 13 150 430# 570# 720# Atomic mass µu 91 966800# 91 949920# 91 939260 91 926156 91 919729 91 911038 91 908949 91 905040.8 91 907194 91 906811 91 915260 91 920120# 91 931980# 91 940420# 970# 640# 50 13 7 4 10 2.5 3 4 28 320# 430# 540# 92 956290# 92 943050# 92 931270 92 922042 92 914026 92 909583 92 906476.0 92 906378.1 92 906813 92 910249 92 917050 92 925740# 92 935910# 92 949780# 860# 320# 110 8 8 11 2.5 2.6 4 4 90 430# 430# 640# 93 960490# 93 948680# 93 934360# 93 926405 93 915361 93 911595 93 906315.2 93 907283.9 93 905088.3 93 909657 93 911360 93 921700# 93 928770# 93 942780# 860# 430# 320# 9 8 8 2.6 2.6 2.1 5 14 480# 430# 540# 94 952870# 94 939840# 94 929303 94 919359 94 912821 94 908042.6 94 906835.8 94 905842.1 94 907657 94 910413 94 915900 94 924690# 94 935480# 94 949870# 540# 430# 23 8 8 2.6 2.1 2.1 6 13 160 430# 430# 640# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 61 60 59 58 57 56 55 54 53 52 51 50 49 48 35 36 37 38 39 40 41 42 43 44 45 46 47 48 96 Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd x x 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 97 62 61 60 59 58 57 56 55 54 53 52 51 50 49 36 37 38 39 40 41 42 43 44 45 46 47 48 49 98 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 99 Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn + − − − x x x x -n − − − x x x -pn − -pp − − x x − x x x Mass excess (keV) Binding energy per nucleon (keV) 363 Beta-decay energy (keV) -38630# -53030# -61225 -72939 -78347 -85442.8 -85604 -88790.5 -85817 -86072 -79679 -76230 -64570# -56100# 700# 500# 29 27 23 2.8 4 1.9 5 8 13 150 400# 500# 8188# 8330# 8407.5 8521.42 8569.60 8635.368 8628.90 8653.941 8614.82 8609.33 8534.59 8490.5 8361# 8265# 7# 5# 0.3 0.29 0.24 0.029 0.04 0.020 0.06 0.08 0.13 1.6 4# 5# β− β− β− β− β− β− β− β− β− -34650# -47920# -58360 -68788 -76258 -82946.6 -85605.6 -87540.4 -87220 -86112 -82590 -77800 -70820 -60600# -47000# 800# 500# 30 19 12 2.8 2.6 1.9 5 8 40 300 320 400# 600# 8146# 8275# 8374.5 8473.99 8542.93 8603.820 8623.167 8635.048 8623.68 8604.19 8559.8 8502 8422 8309# 8161# 8# 5# 0.3 0.20 0.12 0.029 0.026 0.020 0.05 0.09 0.4 3 3 4# 6# β− β− β− β− β− β− β− -44800# -54220 -66646 -72467 -81287 -83529 -88111.7 -86428 -88224 -83175 -81300 -73060 -67630 -53900# 600# 50 26 25 20 6 1.9 4 6 12 21 70 80 200# 8241# 8329.2 8448.02 8499.44 8581.45 8596.34 8635.125 8609.96 8620.31 8560.80 8533.68 8441.6 8378.2 8230# 6# 0.5 0.27 0.25 0.20 0.06 0.020 0.04 0.06 0.12 0.22 0.7 0.8 2# -39500# -50880 -62190 -70201 -77768 -82327 -85965.8 -87323.1 -87617.0 -85574 -82188 -76760 -69850# -61270# -47200# 600# 130 80 24 20 13 1.9 2.0 2.0 7 15 150 210# 400# 600# 8186# 8292.9 8399.2 8472.22 8540.76 8578.90 8607.754 8613.562 8608.627 8580.09 8537.98 8475.2 8398# 8303# 8153# 6# 1.3 0.8 0.25 0.20 0.13 0.019 0.020 0.020 0.07 0.15 1.5 2# 4# 6# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ 14400# 8200# 11714 5408 7096 161 3187 -2973 255 * 6393 3450 11660# 8470# 13260# 10440# 10432 7470 6689 2659.0 1934.8 * 320 1108 3520 4790 6980 10220# 13600# 860# 500# 29 18 23 4 3 5 10 10 150 430# 640# 950# 500# 28 16 11 1.8 1.8 4 9 40 300 110 510# 720# 9430# 12420 5822 8820 2242 4583 -1684 1797 * 5050 1875 8240 5430 13730# 600# 50 10 15 20 5 3 7 11380# 11310 8020 7568 4558 3639 1357.3 293.8 * 2043 3387 5430 6910# 8580# 14080# 610# 110 80 14 15 13 1.0 1.4 10 25 60 40 210# 7 15 150 250# 450# 720# Atomic mass µu 95 958530# 95 943070# 95 934270 95 921697 95 915891 95 908273.4 95 908101 95 904679.5 95 907871 95 907598 95 914461 95 918160 95 930680# 95 939770# 750# 540# 30 29 25 3.0 4 2.1 6 8 14 160 430# 540# 96 962800# 96 948560# 96 937350 96 926153 96 918134 96 910953.1 96 908098.6 96 906021.5 96 906365 96 907555 96 911340 96 916480 96 923970 96 934940# 96 949540# 860# 540# 30 21 13 3.0 2.7 2.1 5 9 40 320 350 430# 640# 97 951910# 97 941790 97 928453 97 922203 97 912735 97 910328 97 905408.2 97 907216 97 905287 97 910708 97 912721 97 921570 97 927400 97 942140# 640# 50 28 26 21 6 2.1 4 7 13 23 70 80 210# 98 957600# 98 945380 98 933240 98 924636 98 916512 98 911618 98 907711.9 98 906254.7 98 905939.3 98 908132 98 911768 98 917600 98 925010# 98 934220# 98 949330# 640# 130 90 26 22 14 2.1 2.1 2.2 8 16 160 220# 430# 640# 364 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 100 Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn x x + + + + 64 63 62 61 60 59 58 57 56 55 54 53 52 51 37 38 39 40 41 42 43 44 45 46 47 48 49 50 101 65 64 63 62 61 60 59 58 57 56 55 54 53 52 37 38 39 40 41 42 43 44 45 46 47 48 49 50 102 65 64 63 62 61 60 59 58 57 56 55 54 53 52 38 39 40 41 42 43 44 45 46 47 48 49 50 51 103 Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn -n − − + + + + + -n + +nn − − − x x Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn x + + + + -nn Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb x x + + + +p x − − − − x x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) β− β− β− β− β− β− β− β− -36200# -46700# -60220 -67290 -76600 -79939 -86184 -86016.2 -89219.0 -85584 -85226 -78150 -74250 -64170 -56780 500# 300# 130 80 40 26 6 2.2 2.0 18 11 80 100 250 710 8152# 8249# 8376.2 8439.1 8524.4 8549.95 8604.57 8595.070 8619.274 8575.10 8563.70 8485.1 8438.3 8329.7 8248 5# 3# 1.3 0.8 0.4 0.26 0.06 0.022 0.020 0.18 0.11 0.8 1.0 2.5 7 -43600 -55410 -64910 -73460 -78942 -83511 -86336 -87949.7 -87408 -85428 -81220 -75750 -68610# -59560# 170 120 100 30 19 6 24 2.0 17 18 100 150 300# 300# 8216.4 8325.6 8411.9 8488.8 8535.34 8572.83 8593.05 8601.282 8588.17 8560.82 8511.5 8449.5 8371# 8274# 1.6 1.2 0.9 0.3 0.19 0.06 0.24 0.020 0.17 0.18 1.0 1.5 3# 3# β− β− β− β− β− β− β− -38310# -53080 -61890 -71740 -76350 -83557 -84566 -89098.0 -86775 -87925.1 -82265 -79678 -70710 -64930 500# 110 90 50 40 21 9 2.0 5 3.0 28 29 110 130 8163# 8300.2 8379.0 8467.9 8505.3 8568.37 8570.58 8607.344 8576.90 8580.505 8517.34 8484.31 8388.7 8324.4 5# 1.1 0.8 0.5 0.4 0.20 0.09 0.020 0.05 0.029 0.27 0.28 1.1 1.3 β− β− β− β− β− β− β− β− β− -47550# -58940# -68370 -75320 -80850 -84597 -87258.8 -88022.2 -87479.1 -84791 -80649 -74599 -66970# -56180# 500# 300# 110 70 60 10 2.0 2.8 2.9 17 15 25 300# 300# 8244# 8347# 8431.3 8491.1 8537.2 8566.04 8584.283 8584.100 8571.231 8537.54 8489.73 8423.40 8342# 8229# 5# 3# 1.1 0.7 0.6 0.10 0.020 0.027 0.028 0.16 0.15 0.24 3# 3# β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 10500# 13520# 7080 9310 3335 6245 -168 3202.8 * 3635 358 7080 3900 10080 7390 590# 320# 100 70 25 25 6 1.7 11810 9510 8540 5485 4569 2825 1614 * 542 1980 4200 5480 7130# 9050# 110 80 90 25 18 25 24 14770# 8810 9850 4610 7210 1008 4532 -2323 1150 * 5660 2587 8970 5780 11380# 9440# 6950 5530 3750 2662 763.4 * 543.1 2688 4142 6050 7630# 10800# 18 21 80 70 230 660 17 4 100 110 330# 420# 520# 70 70 30 40 22 9 5 5 28 8 110 70 590# 320# 90 30 60 10 2.1 0.8 17 10 20 300# 420# Atomic mass µu 99 961140# 99 949870# 99 935350 99 927760 99 917760 99 914182 99 907477 99 907657.8 99 904219.5 99 908122 99 908506 99 916100 99 920290 99 931110 99 939040 540# 320# 140 80 40 28 6 2.4 2.2 20 12 80 100 270 760 100 953200 100 940520 100 930310 100 921140 100 915252 100 910347 100 907315 100 905582.1 100 906164 100 908289 100 912800 100 918680 100 926340# 100 936060# 180 130 100 30 20 6 26 2.2 18 19 110 160 320# 320# 101 958870# 101 943020 101 933560 101 922980 101 918040 101 910297 101 909215 101 904349.3 101 906843 101 905609 101 911690 101 914460 101 924090 101 930300 540# 120 90 50 40 22 10 2.2 5 3 30 30 120 140 102 948950# 102 936730# 102 926600 102 919140 102 913210 102 909181 102 906323.8 102 905504 102 906087 102 908973 102 913419 102 919914 102 928100# 102 939690# 540# 320# 120 70 70 11 2.2 3 3 18 17 27 320# 320# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 66 65 64 63 62 61 60 59 58 57 56 55 54 53 38 39 40 41 42 43 44 45 46 47 48 49 50 51 104 Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb x x x + + + 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 105 67 66 65 64 63 62 61 60 59 58 57 56 55 54 39 40 41 42 43 44 45 46 47 48 49 50 51 52 106 68 67 66 65 64 63 62 61 60 59 58 57 56 55 39 40 41 42 43 44 45 46 47 48 49 50 51 52 107 Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te -n +n − − +α x x x + + + +α -p x x x x + + + + +α −α x x x + + + x −α Mass excess (keV) Binding energy per nucleon (keV) 365 Beta-decay energy (keV) -44400# -54910# -66340# -72220 -80330 -82490 -88089 -86949.8 -89390 -85111 -83975 -76110 -71590 -59180# 700# 400# 400# 100 50 50 3 2.8 4 6 9 80 100 360# 8212# 8306# 8408# 8457.4 8527.8 8541.0 8587.33 8568.858 8584.80 8536.14 8517.68 8434.5 8383.6 8257# 7# 4# 4# 1.0 0.5 0.4 0.03 0.027 0.04 0.06 0.09 0.8 1.0 3# β− β− β− β− β− β− β− β− -38580# -51350# -62360# -70850 -77340 -82290 -85928 -87846 -88413 -87068 -84330 -79481 -73260 -63820 -52500# 700# 500# 400# 100 70 60 3 4 4 11 12 17 80 100 500# 8156# 8270# 8367# 8440.6 8494.9 8534.6 8561.835 8572.65 8570.60 8550.34 8516.82 8463.18 8396.5 8299.1 8184# 7# 5# 4# 1.0 0.7 0.5 0.030 0.04 0.04 0.10 0.11 0.17 0.8 1.0 5# β− β− β− β− β− β− β− β− -46770# -59700# -67100# -76255 -79775 -86322 -86361 -89902 -86937 -87132 -80606 -77430 -66330# -58210 700# 500# 200# 18 13 8 8 4 5 6 12 50 310# 130 8225# 8339# 8402# 8480.72 8506.55 8560.93 8553.92 8579.94 8544.59 8539.05 8470.10 8432.7 8321# 8236.7 7# 5# 2# 0.17 0.13 0.07 0.07 0.04 0.05 0.06 0.12 0.5 3# 1.2 β− β− β− β− β− β− β− β− β− -42720# -55190# -64920# -72940 -79100 -83920 -86863 -88368 -88402 -86985 -83560 -78580 -70650# -60540# 500# 300# 400# 160 150 120 12 4 4 6 11 80 300# 300# 8185# 8295# 8378# 8445.9 8496.2 8533.9 8554.10 8560.85 8553.85 8533.30 8493.98 8440.1 8359# 8257# 5# 3# 4# 1.5 1.4 1.2 0.11 0.04 0.04 0.05 0.11 0.8 3# 3# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ 10510# 11430# 5880# 8100 2157 5600 -1139 2440 * 4279 1137 7870 4510 12420# 810# 570# 410# 90 28 50 4 5 12770# 11010# 8490# 6490 4950 3640 1918 567.2 * 1345 2738 4849 6220 9440 11320# 860# 640# 410# 70 50 60 3 2.5 12930# 7400# 9160# 3520 6547 39.40 3541 -2965.1 195 * 6526 3180 11100# 8120# 860# 540# 200# 12 11 0.21 6 2.8 8 12470# 9730# 8030# 6160 4820 2940 1504 34.1 * 1417 3425 4980 7920# 10110# 4 11 80 60 380# 11 4 13 80 130 510# 11 50 320# 340# 590# 500# 430# 60 90 120 12 2.7 4 10 80 310# 420# Atomic mass µu 103 952330# 103 941050# 103 928780# 103 922460 103 913760 103 911450 103 905433 103 906656 103 904036 103 908629 103 909849 103 918300 103 923140 103 936470# 750# 430# 430# 110 60 50 3 3 4 6 10 90 110 390# 104 958580# 104 944870# 104 933050# 104 923940 104 916970 104 911660 104 907753 104 905694 104 905085 104 906529 104 909468 104 914674 104 921350 104 931490 104 943640# 750# 540# 430# 110 80 60 3 4 4 12 12 19 90 110 540# 105 949790# 105 935910# 105 927970# 105 918137 105 914358 105 907329 105 907287 105 903486 105 906669 105 906459 105 913465 105 916880 105 928790# 105 937500 750# 540# 210# 19 14 8 8 4 5 6 13 50 340# 140 106 954140# 106 940750# 106 930310# 106 921690 106 915080 106 909910 106 906748 106 905133 106 905097 106 906618 106 910295 106 915640 106 924150# 106 935010# 540# 320# 430# 170 160 130 13 4 5 6 12 90 320# 320# 366 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 108 Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I x x x + + + + 69 68 67 66 65 64 63 62 61 60 59 58 57 56 40 41 42 43 44 45 46 47 48 49 50 51 52 53 109 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 110 70 69 68 67 66 65 64 63 62 61 60 59 58 57 41 42 43 44 45 46 47 48 49 50 51 52 53 54 111 Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe -n x −α -p x x x + + +p +3n − εp -p x x x + − x − −α +α −α x x + x + -n + +n x εp −α −α Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -37740# -52200# -60700# -71300# -75950 -83670 -85020 -89524 -87602 -89252 -84116 -82041 -72510# -65720 -52650# 800# 600# 300# 200# 130 120 110 3 4 6 10 20 210# 100 360# 8138# 8265# 8336# 8427# 8463.1 8527.3 8532.6 8567.02 8541.98 8550.02 8495.21 8468.76 8373# 8303.2 8175# 7# 6# 3# 2# 1.2 1.1 1.0 0.03 0.04 0.05 0.09 0.18 2# 1.0 3# β− β− β− β− β− β− β− β− β− -47280# -58100# -67250# -74540 -80850 -85011 -87607 -88722.7 -88508 -86489 -82639 -76259 -67610 -57610 500# 500# 300# 100 70 12 3 2.9 4 6 10 19 60 100 8218# 8310# 8387# 8446.5 8497.3 8528.24 8544.88 8547.944 8538.80 8513.09 8470.60 8404.89 8318.4 8219.5 5# 5# 3# 0.9 0.6 0.11 0.03 0.027 0.04 0.05 0.09 0.17 0.6 1.0 β− β− β− β− β− β− β− -43900# -53620# -65460# -70960 -79980 -82780 -88349 -87460.6 -90353.0 -86475 -85844 -77540# -72280 -60320# -51900 800# 500# 400# 80 50 50 11 2.9 2.7 12 14 200# 50 310# 130 8186# 8267# 8368# 8410.6 8485.5 8503.8 8547.33 8532.138 8551.320 8508.95 8496.10 8414# 8358.5 8243# 8159.1 7# 5# 4# 0.7 0.5 0.5 0.10 0.026 0.024 0.11 0.13 2# 0.5 3# 1.2 β− β− β− β− β− β− β− β− -50630# -61100# -69220 -76670 -82357 -86004 -88221 -89257.5 -88396 -85945 -80888 -73480 -64950# -54400# 500# 400# 110 70 30 11 3 2.7 5 7 28 70 300# 300# 8238# 8326# 8391.8 8451.9 8496.11 8521.91 8534.834 8537.127 8522.31 8493.19 8440.58 8366.8 8283# 8181# 5# 4# 1.0 0.7 0.27 0.10 0.027 0.024 0.04 0.06 0.25 0.6 3# 3# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ 14460# 8500# 10610# 4650# 7720 1350 4500 -1922 1650 * 5137 2075 9530# 6790# 13070# 1000# 670# 360# 150# 50 50 110 5 7 10820# 9150# 7290# 6310 4160 2596 1116.1 * 214.2 2020 3850 6380 8650 10000 710# 590# 310# 70 70 12 2.0 9720# 11840# 5510# 9020 2790 5570 -889 2892.4 * 3878 631 8300# 5270# 11960# 8420# 950# 640# 410# 60 40 50 11 1.6 10470# 8120# 7450 5690 3647 2217 1036.8 * 862 2451 5057 7400 8540# 10550# 9 19 210# 230# 370# 2.9 6 11 16 70 120 12 18 200# 210# 310# 340# 640# 420# 80 80 28 11 1.4 5 7 29 80 310# 430# Atomic mass µu 107 959480# 107 943960# 107 934840# 107 923450# 107 918460 107 910170 107 908730 107 903892 107 905956 107 904184 107 909698 107 911925 107 922160# 107 929440 107 943480# 860# 640# 320# 210# 140 120 110 4 5 6 10 21 220# 110 390# 108 949240# 108 937630# 108 927810# 108 919980 108 913200 108 908737 108 905950 108 904752 108 904982 108 907151 108 911283 108 918132 108 927420 108 938150 540# 540# 320# 100 70 13 4 3 4 6 11 20 70 110 109 952870# 109 942440# 109 929730# 109 923820 109 914140 109 911140 109 905153 109 906107 109 903002.1 109 907165 109 907843 109 916750# 109 922410 109 935240# 109 944280 860# 540# 430# 80 60 50 12 3 2.9 13 15 220# 60 330# 140 110 945650# 110 934410# 110 925690 110 917700 110 911590 110 907671 110 905291 110 904178.1 110 905103 110 907734 110 913160 110 921110 110 930280# 110 941600# 540# 430# 120 80 30 12 3 2.9 5 7 30 80 320# 330# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 112 Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs x x + x + 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 113 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 114 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 115 Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba x 2p−n −α −α -p x x x + − x −α −α -p x x + x x x x x εp −α x x + x + + x x x x x x Mass excess (keV) Binding energy per nucleon (keV) 367 Beta-decay energy (keV) -45800# -58830# -66000 -75480 -79740 -86336 -86624 -90580.5 -87996 -88661 -81601 -77300 -67100# -59970 -46290# 700# 600# 120 70 50 18 17 2.7 5 4 18 170 210# 100 300# 8194# 8303# 8360.2 8437.9 8469.0 8520.86 8516.44 8544.780 8514.72 8513.67 8443.65 8398.3 8300# 8229.5 8100# 6# 5# 1.1 0.7 0.5 0.16 0.15 0.024 0.05 0.04 0.16 1.5 2# 0.9 3# β− β− β− β− β− β− β− β− β− -42200# -54140# -63720# -72200 -78680 -83690 -87033 -89049.3 -89370 -88333 -84420 -78347 -71130 -62090 -51700 800# 600# 300# 70 50 40 17 2.7 3 4 18 28 50 80 100 8161# 8260# 8338# 8405.6 8456.1 8493.5 8516.12 8527.040 8522.951 8506.85 8465.30 8404.64 8333.8 8246.9 8148.1 7# 5# 3# 0.6 0.4 0.3 0.15 0.024 0.028 0.04 0.16 0.25 0.5 0.7 0.9 β− β− β− β− β− β− β− β− -51310# -59730# -70530# -75630 -83497 -84949 -90020.9 -88572 -90561 -84515 -81889 -72800# -67086 -54540# -45950 700# 600# 230# 110 24 25 2.7 3 3 28 28 300# 11 310# 140 8233# 8300# 8388# 8425.9 8488.06 8493.94 8531.565 8511.994 8522.576 8462.68 8432.78 8346# 8289.20 8172# 8090.0 6# 5# 2# 1.0 0.21 0.22 0.023 0.028 0.028 0.25 0.25 3# 0.10 3# 1.2 -46310# -57110# -66430 -74210 -80400 -84990 -88090.5 -89537 -90036.0 -87003 -82063 -76338 -68657 -59700# -49030# 800# 700# 130 80 60 30 2.7 4 2.9 16 28 29 12 300# 600# 8188# 8275# 8349.6 8410.5 8457.5 8490.6 8510.777 8516.55 8514.088 8480.91 8431.15 8374.56 8300.97 8216# 8117# 7# 6# 1.1 0.7 0.5 0.3 0.024 0.04 0.026 0.14 0.24 0.25 0.11 3# 5# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ 13030# 7170# 9480 4260 6600 288 3956 -2584 665 * 7061 4300 10210# 7130# 13670# 920# 610# 100 90 50 17 17 5 5 18 170 270# 240# 320# 11940# 9590# 8480# 6480 5010 3340 2017 320 * 1036.6 3913 6070 7220 9040 10390 1000# 670# 310# 50 40 30 16 3 8420# 10800# 5100# 7860 1452 5072 -1449 1988.7 * 6046 2630 9090# 5710# 12550# 8590# 920# 640# 200# 120 18 25 3 0.7 10810# 9320# 7780 6190 4580 3100 1446 499 * 3033 4940 5720 7680 8960# 10680# 2.7 17 30 60 100 130 28 40 300# 300# 310# 340# 1060# 710# 100 100 50 30 4 4 16 30 40 30 300# 670# Atomic mass µu 111 950830# 111 936840# 111 929150 111 918970 111 914390 111 907314 111 907005 111 902757.8 111 905532 111 904818 111 912398 111 917010 111 927970# 111 935620 111 950300# 750# 640# 130 80 60 19 18 2.9 6 5 19 180 230# 110 330# 112 954700# 112 941880# 112 931590# 112 922490 112 915530 112 910150 112 906567 112 904401.7 112 904058 112 905171 112 909372 112 915890 112 923640 112 933340 112 944490 860# 640# 320# 80 50 40 18 2.9 3 4 19 30 60 90 110 113 944920# 113 935880# 113 924280# 113 918810 113 910363 113 908804 113 903358.5 113 904914 113 902779 113 909270 113 912090 113 921850# 113 927980 113 941450# 113 950680 750# 640# 250# 120 25 27 2.9 3 3 30 30 320# 12 330# 150 114 950290# 114 938690# 114 928690 114 920330 114 913680 114 908760 114 905431.0 114 903878 114 903342 114 906598 114 911900 114 918050 114 926294 114 935910# 114 947370# 860# 750# 140 90 70 40 2.9 5 3 17 30 30 13 320# 640# 368 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 73 72 71 70 69 68 67 66 65 64 63 62 61 60 43 44 45 46 47 48 49 50 51 52 53 54 55 56 116 Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba x x x + + 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 117 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 118 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 119 Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce -n x + x -p x x x x + + -n x x x εp -p x x x + + -nn − +nn x x x x x x x + + − x x IT εp x x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -52750# -64450# -70740 -79960 -82570 -88719 -88250 -91528.1 -86821 -85269 -77490 -73047 -62070# -54600# 700# 700# 140 60 50 3 4 2.9 6 28 100 13 100# 400# 8236# 8330# 8377.6 8450.4 8466.1 8512.410 8501.62 8523.134 8475.81 8455.69 8381.9 8336.83 8235# 8164# 6# 6# 1.2 0.5 0.4 0.027 0.04 0.025 0.05 0.24 0.8 0.11 1# 3# β− β− β− β− β− β− β− -49850# -60010# -68950# -76530 -82270 -86425 -88945 -90400.0 -88645 -85097 -80435 -74185 -66440 -57290# -46510# 700# 700# 500# 60 50 3 6 2.9 9 13 28 10 60 300# 400# 8210# 8290# 8360# 8417.8 8460.2 8489.032 8503.88 8509.630 8487.94 8450.93 8404.40 8344.30 8271.4 8186# 8088# 6# 6# 4# 0.5 0.4 0.028 0.05 0.025 0.08 0.11 0.24 0.09 0.5 3# 3# β− β− β− β− β− β− β− -45200# -57920# -65140# -75470 -79570 -86709 -87230 -91656.1 -87999 -87721 -80971 -78079 -68409 -62370# -49620# 900# 800# 500# 210 60 20 8 2.9 4 15 20 10 13 200# 300# 8169# 8270# 8325# 8405.9 8434.0 8487.89 8485.68 8516.561 8478.94 8469.95 8406.12 8374.98 8286.40 8229# 8114# 8# 7# 4# 1.8 0.5 0.17 0.07 0.024 0.04 0.13 0.17 0.09 0.11 2# 3# -53240# -63240# -71620# -78560 -83910 -87704 -90068.4 -89477 -87184 -83766 -78794 -72305 -64590 -54970# -44000# 700# 600# 300# 90 80 8 2.9 8 8 28 10 14 200 400# 600# 8229# 8307# 8371# 8422.5 8460.9 8486.19 8499.477 8487.94 8462.09 8426.79 8378.44 8317.33 8245.9 8158# 8060# 6# 5# 3# 0.8 0.7 0.06 0.024 0.07 0.07 0.23 0.09 0.12 1.7 3# 5# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ 11700# 6290# 9220 2610 6150 -469 3278 * 4707 1552 7780 4450 10980# 7460# 990# 710# 150 30 50 5 4 10150# 8940# 7580# 5730 4160 2520 1455 * 1755 3548 4660 6249 7740 9160# 10780# 990# 860# 510# 30 50 6 5 12720# 7220# 10330# 4100 7140 522 4426 * 3656.6 278 6750 2892 9670 6040# 12750# 1210# 950# 550# 200 60 22 8 10000# 8380# 6940# 5350 3800 2364 * 591 2293.0 3419 4971 6489 7710 9620# 10960# 920# 670# 310# 40 80 8 5 29 100 100 100# 410# 9 16 30 30 60 310# 500# 3.0 15 25 22 16 200# 360# 8 2.0 29 30 17 200 450# 720# Atomic mass µu 115 943370# 115 930810# 115 924060 115 914160 115 911360 115 904756 115 905260 115 901741 115 906794 115 908460 115 916810 115 921581 115 933370# 115 941380# 750# 750# 150 60 50 3 5 3 6 30 100 14 110# 430# 116 946480# 116 935580# 116 925980# 116 917840 116 911680 116 907219 116 904514 116 902952 116 904836 116 908645 116 913650 116 920359 116 928670 116 938500# 116 950070# 750# 750# 540# 60 50 4 6 3 10 14 30 11 70 320# 430# 117 951480# 117 937820# 117 930070# 117 918980 117 914580 117 906915 117 906354 117 901603 117 905529 117 905828 117 913074 117 916179 117 926559 117 933040# 117 946730# 970# 860# 540# 230 70 22 9 3 4 16 21 11 14 210# 320# 118 942840# 118 932110# 118 923110# 118 915670 118 909920 118 905845 118 903308 118 903942 118 906404 118 910070 118 915411 118 922377 118 930660 118 940990# 118 952760# 750# 640# 320# 100 90 8 3 9 9 30 11 15 210 430# 640# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 120 Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce x x + + +α + 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 121 Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr x x + + +p 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 122 Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr x x x +pp + 77 76 75 74 73 72 71 70 69 68 67 66 65 64 46 47 48 49 50 51 52 53 54 55 56 57 58 59 123 Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr x x + + − − x IT − x x x x − x x -p − x x x x x x x x x x Mass excess (keV) Binding energy per nucleon (keV) -50940# -59230# -70150 -75650 -83974 -85740 -91105.1 -88424 -89405 -83790 -82172 -73889 -68890 -57690# -49710# 800# 600# 120 70 19 40 2.5 8 10 18 12 10 300 500# 700# 8209# 8272# 8356.0 8395.3 8458.16 8466.3 8504.548 8475.69 8477.34 8424.03 8404.03 8328.48 8280.3 8180# 8107# 7# 5# 1.0 0.6 0.16 0.3 0.021 0.06 0.08 0.15 0.10 0.08 2.5 4# 6# -57080# -66260# -74660 -81060 -85841 -89204.1 -89595.1 -88551 -86287 -82473 -77100 -70740 -62400# -52700# -41580# 900# 500# 150 80 27 2.5 2.2 26 10 11 14 140 500# 500# 700# 8252# 8321# 8384.5 8430.9 8463.93 8485.257 8482.023 8466.93 8441.75 8403.76 8352.90 8293.9 8218# 8132# 8033# 7# 4# 1.2 0.7 0.23 0.021 0.018 0.21 0.09 0.09 0.11 1.2 4# 4# 6# -52900# -64690# -71230# -80730 -83580 -89945.9 -88330.2 -90314.0 -86080 -85355 -78140 -74609 -64540# -57840# -44890# 700# 400# 210# 40 50 2.7 2.2 1.5 5 11 30 28 300# 400# 500# 8216# 8307# 8354# 8425.2 8442.2 8487.945 8468.288 8478.137 8437.02 8424.66 8359.11 8323.76 8235# 8173# 8061# 6# 3# 2# 0.4 0.4 0.022 0.018 0.012 0.04 0.09 0.26 0.23 2# 3# 4# -60610# -69960# -77310 -83426 -87820.5 -89224.1 -89171.9 -87943 -85249 -81044 -75655 -68710# -60180# -50340# 600# 210# 40 24 2.7 2.1 1.5 4 10 12 12 200# 300# 600# 8272# 8341# 8394.6 8437.91 8467.278 8472.329 8465.544 8449.19 8420.93 8380.38 8330.21 8267# 8192# 8105# 5# 2# 0.3 0.20 0.022 0.017 0.012 0.03 0.08 0.10 0.10 2# 2# 5# 369 Beta-decay energy (keV) β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ 8290# 10920# 5500 8320 1760 5370 -2681 980 * 5615 1617 8284 5000 11200# 7980# 1000# 610# 100 70 40 40 7 12 9180# 8400# 6400 4780 3363 391.0 * 1044 2264 3814 5372 6360 8340# 9700# 11130# 1030# 520# 120 80 27 2.1 11790# 6540# 9500# 2850 6370 -1615.8 1983.9 * 4234 725 7220 3530 10070# 6710# 12950# 810# 450# 210# 70 50 2.8 1.9 9340# 7360# 6120 4394 1403.6 * 52.2 1229 2695 4205 5389 6950# 8530# 9840# 630# 210# 30 24 2.9 15 21 15 300 590# 860# 26 27 15 18 140 520# 710# 860# 5 12 30 40 300# 500# 640# 1.5 3 10 15 17 200# 360# 670# Atomic mass µu 119 945310# 119 936410# 119 924690 119 918790 119 909850 119 907960 119 902194.7 119 905072 119 904020 119 910048 119 911784 119 920677 119 926040 119 938070# 119 946640# 860# 640# 130 80 20 40 2.7 8 10 19 13 11 320 540# 750# 120 938720# 120 928870# 120 919850 120 912980 120 907846 120 904235.5 120 903815.7 120 904936 120 907367 120 911462 120 917229 120 924050 120 933010# 120 943420# 120 955360# 970# 540# 160 90 29 2.7 2.4 28 11 12 15 150 540# 540# 750# 121 943210# 121 930550# 121 923530# 121 913330 121 910280 121 903439.0 121 905173.7 121 903043.9 121 907589 121 908368 121 916110 121 919900 121 930710# 121 937910# 121 951810# 750# 430# 220# 50 50 2.9 2.4 1.6 6 12 30 30 320# 430# 540# 122 934930# 122 924900# 122 917000 122 910438 122 905720.8 122 904214.0 122 904270.0 122 905589 122 908482 122 912996 122 918781 122 926240# 122 935400# 122 945960# 640# 220# 40 26 2.9 2.2 1.6 4 10 13 13 210# 320# 640# 370 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 124 Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd x x + + 78 77 76 75 74 73 72 71 70 69 68 67 66 65 47 48 49 50 51 52 53 54 55 56 57 58 59 60 125 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 126 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 127 − x x x x x x Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd x + + -n + Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm x + + -nn − Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm x + + + + − x x x x x − x x x x x x x x x x x x x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -58800# -66470# -76710 -80880 -88236.8 -87620.3 -90524.5 -87365.0 -87660.1 -81731 -79090 -70260 -64820# -53130# -44500# 500# 200# 60 50 1.4 2.1 1.5 2.4 1.8 8 12 60 300# 600# 600# 8255# 8311# 8387.1 8414.4 8467.441 8456.161 8473.273 8441.483 8437.554 8383.43 8355.82 8278.3 8228# 8128# 8052# 4# 2# 0.5 0.4 0.011 0.017 0.012 0.019 0.015 0.07 0.10 0.5 2# 5# 5# β− β− β− β− β− β− β− β− -64800# -73360 -80480 -85898.5 -88255.5 -89022.2 -88836.4 -87192.1 -84088 -79668 -73759 -66660# -57910# -47620# 300# 70 30 1.5 2.6 1.5 1.5 1.9 8 11 26 200# 400# 400# 8296# 8357.8 8408.48 8445.567 8458.164 8458.039 8450.294 8430.880 8399.79 8358.17 8304.64 8242# 8165# 8077# 2# 0.6 0.24 0.012 0.021 0.012 0.012 0.015 0.06 0.09 0.21 2# 3# 3# β− β− β− β− β− -61010# -72330 -77810 -86020 -86400 -90064.6 -87911 -89169 -84345 -82670 -74970 -70821 -60260# -52890# -39570# 300# 50 40 11 30 1.5 4 6 12 12 90 28 200# 400# 500# 8264# 8347.3 8384.6 8443.56 8440.35 8463.242 8439.937 8443.71 8399.22 8379.72 8312.4 8273.26 8183# 8119# 8007# 2# 0.4 0.3 0.08 0.25 0.012 0.030 0.05 0.10 0.10 0.7 0.22 2# 3# 4# β− β− β− β− β− β− β− -58900# -68520 -76990 -83499 -86700 -88281.1 -88983 -88321 -86240 -82816 -77896 -71980 -64430# -55420# -45060# 300# 70 40 25 5 1.5 4 4 6 11 26 60 200# 400# 600# 8246# 8315.1 8375.6 8420.78 8439.82 8446.113 8445.481 8434.11 8411.56 8378.44 8333.54 8280.8 8215# 8138# 8050# 2# 0.6 0.3 0.19 0.04 0.012 0.028 0.03 0.04 0.09 0.20 0.5 2# 3# 5# β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 7680# 10240# 4170 7360 -616.5 2904.3 -3159.6 295.1 * 5929 2642 8830 5440# 11690# 8640# 540# 210# 40 50 2.1 1.5 1.9 2.8 8550# 7120 5420 2357.0 766.7 * 185.77 1644.4 3104 4420 5909 7100# 8750# 10290# 310# 60 30 2.7 2.1 11320# 5490 8210 380 3670 -2154 1258 * 4824 1675 7700 4150 10560# 7370# 13320# 300# 40 40 30 30 4 5 9620# 8470 6510 3201 1581 702 * 662.3 2081 3424 4920 5920 7540# 9010# 10370# 9 15 60 300# 670# 840# 0.06 2.2 8 14 28 200# 450# 570# 14 17 90 90 200# 450# 640# 310# 60 30 24 5 3 2.0 6 13 28 60 200# 450# 720# Atomic mass µu 123 936880# 123 928640# 123 917650 123 913180 123 905273.9 123 905935.7 123 902817.9 123 906209.9 123 905893.0 123 912258 123 915094 123 924570 123 930410# 123 942960# 123 952230# 540# 210# 70 50 1.5 2.2 1.6 2.5 2.0 9 13 60 320# 640# 640# 124 930430# 124 921250 124 913600 124 907784.1 124 905253.8 124 904430.7 124 904630.2 124 906395.5 124 909728 124 914473 124 920816 124 928440# 124 937830# 124 948880# 320# 70 30 1.6 2.8 1.6 1.6 2.0 8 12 28 210# 430# 430# 125 934500# 125 922350 125 916460 125 907653 125 907250 125 903311.7 125 905624 125 904274 125 909452 125 911250 125 919510 125 923970 125 935310# 125 943220# 125 957520# 320# 60 40 11 30 1.6 4 7 13 13 100 30 210# 430# 540# 126 936770# 126 926440 126 917350 126 910360 126 906924 126 905226.3 126 904473 126 905184 126 907418 126 911094 126 916375 126 922730 126 930830# 126 940500# 126 951630# 320# 80 40 26 6 1.6 4 4 6 12 28 60 210# 430# 640# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 128 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm x + + + IT 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 129 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm x x + x + 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 130 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu x x x x x x x x x εp x x -nn + + x x x x x x -p Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -54800# -67290 -74360 -83335 -84609 -88992.1 -87738 -89860.0 -85931 -85402 -78630 -75534 -66331 -60180# -48050# -39050# 300# 290 50 27 25 1.7 4 1.4 5 10 50 28 30 200# 400# 500# 8212# 8303.6 8352.8 8416.76 8420.61 8448.740 8432.829 8443.296 8406.49 8396.24 8337.2 8306.93 8228.91 8175# 8074# 7997# 2# 2.3 0.4 0.21 0.20 0.014 0.028 0.011 0.04 0.08 0.4 0.22 0.23 2# 3# 4# β− β− β− β− β− β− β− -52450# -63200# -72940 -80594 -84628 -87003.2 -88503 -88697.4 -87500 -85065 -81326 -76287 -69774 -62240# -52950# -42250# 400# 300# 40 29 21 1.8 3 0.7 5 11 21 28 30 200# 400# 500# 8193# 8270# 8339.6 8392.84 8418.05 8430.396 8435.960 8431.400 8416.06 8391.11 8356.06 8310.94 8254.38 8190# 8112# 8023# 3# 2# 0.3 0.22 0.17 0.014 0.025 0.006 0.04 0.08 0.16 0.22 0.23 2# 3# 4# β− β− β− β− β− β− β− -46160# -61570 -69890 -80139 -82292 -87351.4 -86932 -89881.7 -86900 -87261.6 -81628 -79423 -71180 -66596 -55470# -47580# -33940# 330# 280 40 11 17 1.9 3 0.7 8 2.8 26 28 60 28 300# 400# 500# 8144# 8256.1 8314.0 8386.87 8397.41 8430.312 8421.071 8437.740 8408.79 8405.549 8356.20 8333.22 8263.8 8222.51 8131# 8064# 7953# 3# 2.2 0.3 0.08 0.13 0.015 0.024 0.006 0.06 0.021 0.20 0.21 0.5 0.21 2# 3# 4# β− β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 12490# 7070 8980 1274 4384 -1254 2122 * 3929 530 6770 3100 9200 6150# 12140# 9000# 420# 290 40 15 25 4 4 10750# 9740# 7660 4030 2375 1500 194 * 1197 2436 3738 5040 6510 7540# 9290# 10690# 500# 300# 30 40 21 3 3 15410# 8320 10250 2153 5060 -419 2949 -2981 361 * 5634 2210 8250 4580 11130# 7890# 13650# 440# 280 40 14 17 3 3 8 9 5 11 60 60 40 200# 450# 640# 5 11 24 30 40 200# 450# 640# 26 40 70 70 300# 500# 640# 371 Atomic mass µu 127 941170# 127 927760 127 920170 127 910537 127 909169 127 904463.1 127 905809 127 903531.3 127 907749 127 908318 127 915590 127 918910 127 928790 127 935390# 127 948420# 127 958080# 320# 320 50 29 27 1.9 4 1.5 6 11 60 30 30 210# 430# 540# 128 943690# 128 932150# 128 921700 128 913480 128 909148 128 906598.2 128 904988 128 904779.4 128 906064 128 908679 128 912693 128 918100 128 925100 128 933190# 128 943160# 128 954640# 430# 320# 50 30 23 1.9 3 0.8 5 12 22 30 30 220# 430# 540# 129 950450# 129 933900 129 924970 129 913967 129 911656 129 906224.4 129 906674 129 903508.0 129 906709 129 906320.8 129 912369 129 914740 129 923590 129 928510 129 940450# 129 948920# 129 963570# 360# 300 40 11 18 2.1 3 0.8 9 3.0 28 30 70 30 320# 430# 540# 372 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 131 Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu x + 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 132 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 133 + x x x x x x -p Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu x + In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu x + + + + + x x x x x x x x x x x x x Mass excess (keV) Binding energy per nucleon (keV) -55270# -68137 -77314 -81988 -85209.5 -87444.4 -88415.2 -88060 -86683.8 -83769 -79720 -74280 -67769 -59740# -50200# -39350# 300# 28 21 21 1.9 1.1 1.0 5 2.8 28 30 50 28 200# 300# 400# 8207# 8298.81 8362.90 8392.60 8411.221 8422.309 8423.748 8415.06 8398.587 8370.37 8333.45 8286.0 8230.31 8163# 8084# 7995# 2# 0.21 0.16 0.16 0.015 0.009 0.007 0.04 0.021 0.21 0.26 0.4 0.21 1# 2# 3# -50720# -62420 -76554 -79674 -85182 -85700 -89280.5 -87155.9 -88434.8 -83740 -82474 -75210 -71426 -61710# -55250# -42500# 500# 60 14 14 7 6 1.0 1.9 1.1 40 21 60 24 200# 300# 400# 8171# 8253.8 8354.93 8372.63 8408.44 8406.43 8427.633 8405.612 8409.373 8367.88 8352.36 8291.4 8256.81 8177# 8122# 8020# 4# 0.5 0.10 0.11 0.05 0.04 0.007 0.014 0.008 0.30 0.16 0.4 0.18 1# 2# 3# -57930# -70950 -78943 -82945 -85887 -87643.6 -88070.958 -87553.5 -85494 -82423 -77938 -72330 -65410 -57130# -47280# 300# 40 25 24 5 2.4 0.022 1.0 28 16 12 50 50 200# 300# 8219# 8310.68 8364.87 8389.08 8405.32 8412.647 8409.978 8400.205 8378.84 8349.87 8310.26 8262.2 8204.3 8136# 8056# 2# 0.27 0.19 0.18 0.04 0.018 0.000 0.007 0.21 0.12 0.09 0.4 0.4 1# 2# Beta-decay energy (keV) β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ 12870# 9177 4674 3221 2234.9 970.8 * 355 1376 2915 4050 5440 6510 8030# 9540# 10850# 11700# 14140 3119 5509 518 3581 -2124.6 1278.9 * 4690 1270 7260 3790 9710# 6470# 12740# 13020# 7990 4002 2942 1757 427.4 * 517.5 2059 3070 4486 5610 6920 8280# 9850# 300# 18 11 21 2.2 0.6 5 5 28 40 60 60 200# 360# 500# 510# 60 9 14 4 6 2.1 2.2 40 40 60 60 200# 360# 500# 300# 25 7 24 4 2.4 1.0 28 30 21 50 70 200# 360# Atomic mass µu 130 940670# 130 926850 130 917000 130 911982 130 908523.9 130 906124.6 130 905082.4 130 905464 130 906941 130 910070 130 914420 130 920260 130 927250 130 935870# 130 946110# 130 957750# 320# 30 23 22 2.1 1.2 1.0 5 3 30 40 60 30 210# 320# 430# 131 945550# 131 932990 131 917816 131 914467 131 908553 131 907997 131 904153.5 131 906434.3 131 905061.3 131 910100 131 911460 131 919260 131 923321 131 933750# 131 940690# 131 954370# 540# 70 15 15 7 6 1.0 2.0 1.1 40 22 60 26 210# 320# 430# 132 937810# 132 923830 132 915252 132 910955 132 907797 132 905910.7 132 905451.933 132 906007.5 132 908220 132 911515 132 916331 132 922350 132 929780 132 938670# 132 949240# 320# 40 27 26 5 2.6 0.024 1.1 30 18 13 50 50 210# 320# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 134 In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd x + + + + x 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 135 In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd x x + + 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 136 Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb x x x x x x x x − − x x x x x x x x + x x x x x x x Mass excess (keV) Binding energy per nucleon (keV) -52020# -66800 -74170 -82559 -84072 -88124.5 -86891.181 -88949.9 -85219 -84836 -78510 -75646 -66740 -61510# -49830# -41570# 400# 100 40 11 8 0.8 0.026 0.4 20 20 40 12 60 200# 200# 400# 8173# 8277.9 8327.0 8383.84 8389.29 8413.689 8398.646 8408.171 8374.49 8365.79 8312.78 8285.54 8213.2 8168# 8075# 8008# 3# 0.7 0.3 0.08 0.06 0.006 0.000 0.003 0.15 0.15 0.26 0.09 0.4 1# 1# 3# -47200# -60800# -69710 -77830 -83790 -86417 -87581.9 -87850.5 -86651 -84625 -80936 -76214 -69980 -62860 -54190# -44180# 500# 400# 100 90 7 5 1.0 0.4 10 11 12 19 60 150 300# 500# 8137# 8232# 8292.1 8346.5 8384.84 8398.50 8401.338 8397.533 8382.85 8362.05 8328.93 8288.15 8236.2 8177.6 8108# 8028# 4# 3# 0.8 0.7 0.05 0.03 0.007 0.003 0.07 0.08 0.09 0.14 0.4 1.1 2# 4# -56500# -64880# -74430 -79500 -86425 -86338.7 -88886.9 -86040 -86468 -81327 -79199 -71200 -66811 -56260# -49050# -35970# 500# 300# 50 50 7 1.9 0.4 50 13 12 12 80 12 200# 400# 600# 8199# 8255# 8319.4 8351.0 8396.16 8389.770 8402.755 8376.0 8373.47 8329.91 8308.51 8243.9 8205.92 8123# 8064# 7962# 4# 2# 0.3 0.4 0.05 0.014 0.003 0.4 0.10 0.09 0.09 0.6 0.09 1# 3# 4# Beta-decay energy (keV) β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ 14770# 7370 8390 1513 4052 -1233.3 2058.7 * 3731 383 6320 2870 8910 5230# 11680# 8250# 410# 90 40 7 8 0.8 0.4 20 29 40 40 60 200# 280# 450# 13600# 8910# 8120 5960 2627 1165 268.7 * 1200 2026 3689 4722 6240 7120 8660# 10010# 640# 410# 50 90 6 4 1.1 8370# 9550# 5070 6930 -86 2548.2 -2850 430 * 5141 2128 8000 4390 10550# 7210# 13080# 590# 300# 60 50 7 1.9 50 50 10 5 16 23 60 170 340# 590# 15 17 80 80 200# 450# 720# 373 Atomic mass µu 133 944150# 133 928290 133 920380 133 911369 133 909744 133 905394.5 133 906718.475 133 904508.4 133 908514 133 908925 133 915710 133 918790 133 928350 133 933970# 133 946510# 133 955370# 430# 110 50 11 9 0.9 0.028 0.4 21 22 40 13 60 210# 210# 430# 134 949330# 134 934730# 134 925170 134 916450 134 910048 134 907227 134 905977.0 134 905688.6 134 906977 134 909151 134 913112 134 918181 134 924880 134 932520 134 941820# 134 952570# 540# 430# 110 100 8 5 1.1 0.4 11 12 13 21 60 170 320# 540# 135 939340# 135 930350# 135 920100 135 914650 135 907219 135 907311.6 135 904575.9 135 907640 135 907172 135 912692 135 914976 135 923570 135 928276 135 939600# 135 947340# 135 961380# 540# 320# 50 50 8 2.0 0.4 60 14 13 13 80 13 210# 430# 640# 374 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 137 Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb x x + p−2n -n 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 138 Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy x x + + 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 139 Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy + x x x x +n − x x x x x x x x x + + + x x x x x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) β− β− β− β− β− β− -50310# -60260# -69560 -76503 -82379 -86545.6 -87721.2 -87101 -85879 -83177 -79580 -74073 -68030 -60020# -51210# -41000# 600# 400# 120 28 7 0.5 0.4 13 13 12 11 13 40 200# 400# 600# 8153# 8220# 8282.1 8327.07 8364.26 8388.956 8391.827 8381.59 8366.96 8341.53 8309.56 8263.65 8213.8 8150# 8080# 7999# 4# 3# 0.9 0.20 0.05 0.003 0.003 0.10 0.10 0.09 0.08 0.10 0.3 1# 3# 4# -55150# -65930# -72330 -80150 -82887 -88261.6 -86525 -87569 -83132 -82018 -74940 -71498 -61750 -55780# -43630# -34940# 300# 210# 80 40 9 0.4 4 10 14 12 27 12 28 200# 400# 600# 8182# 8254# 8295.0 8346.0 8360.15 8393.420 8375.164 8377.06 8339.24 8325.50 8268.54 8237.93 8161.62 8113# 8019# 7950# 2# 1# 0.6 0.3 0.07 0.003 0.026 0.07 0.10 0.09 0.20 0.09 0.20 1# 3# 4# β− β− β− β− β− β− β− -50320# -60800# -68840 -75644 -80701 -84913.7 -87231.4 -86952 -84823 -81992 -77496 -72380 -65398 -57530# -48170# -37690# 500# 400# 30 21 3 0.4 2.4 7 8 26 13 11 13 200# 300# 500# 8146# 8216# 8268.25 8311.58 8342.338 8367.017 8378.063 8370.43 8349.48 8323.48 8285.51 8243.08 8187.22 8125# 8052# 7971# 4# 3# 0.22 0.15 0.023 0.003 0.017 0.05 0.06 0.19 0.10 0.08 0.09 1# 2# 4# β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 9950# 9300# 6940 5877 4166 1175.63 * 621 1222.1 2701 3597 5507 6050 8010# 8800# 10210# 720# 420# 120 27 7 0.17 10780# 6400# 7820 2740 5374 -1737 1044 * 4437 1113 7078 3443 9750 5970# 12150# 8690# 360# 220# 70 40 9 4 10 10480# 8040# 6806 5057 4213 2317.6 * 279 2129.2 2832 4495 5116 6982 7870# 9360# 10480# 640# 400# 23 21 3 2.4 13 1.6 9 16 17 40 200# 450# 720# 10 19 30 30 30 200# 450# 720# 7 3.0 26 25 17 17 200# 360# 590# Atomic mass µu 136 945990# 136 935310# 136 925320 136 917871 136 911562 136 907089.5 136 905827.4 136 906494 136 907806 136 910705 136 914567 136 920479 136 926970 136 935570# 136 945020# 136 955980# 640# 430# 130 30 8 0.5 0.5 14 14 13 12 14 50 210# 430# 640# 137 940790# 137 929220# 137 922350 137 913950 137 911017 137 905247.2 137 907112 137 905991 137 910755 137 911950 137 919548 137 923244 137 933710 137 940120# 137 953160# 137 962490# 320# 220# 90 50 10 0.5 4 11 15 13 30 13 30 210# 430# 640# 138 945980# 138 934730# 138 926100 138 918793 138 913364 138 908841.3 138 906353.3 138 906653 138 908938 138 911978 138 916804 138 922297 138 929792 138 938240# 138 948290# 138 959540# 540# 430# 30 22 3 0.5 2.6 8 8 28 14 12 14 210# 320# 540# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 140 Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho x x + 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 141 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 142 Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho − x − x − x − x -p x x + − x x x x -p x x + x − x − − x Mass excess (keV) Binding energy per nucleon (keV) -56960# -64270# -72990 -77051 -83271 -84321.0 -88083.3 -84695 -84252 -78210 -75456 -66990 -61782 -50480 -42840# -29310# 300# 200# 60 8 8 2.4 2.5 6 28 40 12 50 28 800 500# 500# 8188# 8234# 8290.9 8314.33 8353.17 8355.083 8376.368 8346.58 8337.82 8289.06 8263.82 8197.7 8154.97 8069 8008# 7906# 2# 1# 0.4 0.06 0.06 0.017 0.018 0.05 0.20 0.26 0.09 0.4 0.20 6 4# 4# -51560# -60520# -68330 -74477 -79726 -82938 -85440.1 -86020.9 -84198 -80523 -75939 -69927 -63224 -54540 -45320# -34370# 400# 200# 90 11 8 5 2.5 2.5 4 14 9 13 20 110 300# 500# 8148# 8206# 8256.3 8294.35 8326.03 8343.26 8355.459 8354.029 8335.552 8303.94 8265.88 8217.69 8164.61 8097.5 8027# 7943# 3# 1# 0.6 0.07 0.06 0.03 0.017 0.018 0.027 0.10 0.06 0.09 0.14 0.7 2# 4# -47430# -55720# -65480 -70515 -77823 -80035 -84538.5 -83792.7 -85955.2 -81157 -78993 -71320 -66960 -57060# -49960# -37470# 600# 400# 100 11 6 6 3.0 2.5 2.3 25 6 30 28 300# 360# 500# 8119# 8172# 8234.9 8264.88 8310.84 8320.90 8347.108 8336.347 8346.066 8306.77 8286.02 8226.47 8190.26 8115# 8060# 7966# 4# 3# 0.7 0.07 0.04 0.04 0.021 0.017 0.016 0.18 0.04 0.22 0.20 2# 3# 4# Beta-decay energy (keV) β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ 7310# 8720# 4060 6220 1050 3762.2 * 3388 444 6045 2750 8470 5200 11300 7640# 13530# 360# 210# 60 10 8 1.8 8960# 7810# 6150 5249 3213 2502 580.8 * 1823.0 3675 4584 6012 6702 8680 9220# 10940# 450# 220# 90 11 9 4 1.1 8290# 9750# 5040 7308 2212 4504 -745.8 2162.5 * 4798 2164 7670 4360 9900# 7100 12490# 720# 410# 100 11 5 5 2.4 1.5 6 29 24 40 50 60 800 950# 710# 2.8 14 16 14 23 110 320# 590# 25 26 30 40 300# 200 620# 375 Atomic mass µu 139 938850# 139 931000# 139 921640 139 917282 139 910605 139 909477.6 139 905438.7 139 909076 139 909550 139 916040 139 918995 139 928090 139 933670 139 945810 139 954010# 139 968540# 320# 210# 70 9 9 2.6 2.6 7 30 40 13 60 30 860 540# 540# 140 944650# 140 935030# 140 926650 140 920046 140 914411 140 910962 140 908276.3 140 907652.8 140 909610 140 913555 140 918476 140 924931 140 932126 140 941450 140 951350# 140 963100# 430# 210# 100 11 9 5 2.6 2.6 4 15 9 14 21 110 320# 540# 141 949080# 141 940180# 141 929710 141 924299 141 916453 141 914079 141 909244 141 910044.8 141 907723.3 141 912874 141 915198 141 923430 141 928120 141 938740# 141 946370# 141 959770# 640# 430# 110 11 7 6 3 2.6 2.5 27 6 30 30 320# 390# 540# 376 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 143 I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er x x 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 144 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 145 I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm x − x x x x x x x x x x x x − + + x x x x x -p Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -51640# -60450# -67671 -73936 -78187 -81612.0 -83073.5 -84007.4 -82966 -79523 -74242 -68230 -60430 -52320# -42280# -31350# 400# 200# 24 13 15 3.0 2.6 2.3 3 4 11 200 60 200# 400# 600# 8142# 8199# 8243.64 8281.98 8306.24 8324.715 8329.464 8330.524 8317.769 8288.224 8245.82 8198.3 8138.3 8076# 8000# 7919# 3# 1# 0.17 0.09 0.11 0.021 0.018 0.016 0.023 0.025 0.08 1.4 0.4 1# 3# 4# β− β− β− β− β− β− β− -46580# -57280# -63270 -71769 -74890 -80437 -80756 -83753.2 -81421 -81972.0 -75622 -71760 -62368 -56580 -45200# -36910# 500# 300# 26 13 50 3 3 2.3 3 2.8 11 28 28 30 300# 400# 8107# 8176# 8211.88 8265.47 8281.7 8314.795 8311.575 8326.959 8305.331 8303.723 8254.19 8221.94 8151.29 8105.69 8021# 7958# 3# 2# 0.18 0.09 0.3 0.024 0.023 0.016 0.022 0.019 0.08 0.19 0.19 0.21 2# 3# β− β− β− β− β− β− β− β− β− -52100# -60057 -67410 -72990 -77100 -79632 -81437.1 -81274 -80657.7 -77998 -72927 -65880 -58290 -49180# -39690# -27880# 300# 11 70 90 40 7 2.3 3 2.8 4 19 60 50 300# 400# 400# 8139# 8188.75 8234.1 8267.1 8290.08 8302.17 8309.223 8302.701 8293.057 8269.321 8228.95 8175.0 8117.2 8049# 7978# 7891# 2# 0.07 0.5 0.6 0.29 0.05 0.016 0.022 0.019 0.027 0.13 0.4 0.3 2# 3# 3# β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 8800# 7230# 6264 4251 3425 1461.5 933.9 * 1041.7 3443 5281 6010 7800 8110# 10040# 10930# 450# 200# 22 18 15 1.8 1.4 10690# 5990# 8499 3120 5540 318.7 2997.5 -2332.1 550.9 * 6350 3862 9390 5780 11390# 8290# 590# 300# 26 50 50 0.8 2.4 2.2 2.6 7960# 7360 5570 4110 2530 1805 * 163.4 616.0 2659.3 5071 7050 7590 9110# 9490# 11810# 300# 70 110 80 40 7 2.4 4 12 200 210 200# 450# 720# 11 30 40 40 300# 500# 2.2 2.4 2.7 19 60 70 300# 500# 570# Atomic mass µu 142 944560# 142 935110# 142 927352 142 920627 142 916063 142 912386 142 910816.9 142 909814.3 142 910933 142 914628 142 920298 142 926750 142 935120 142 943830# 142 954610# 142 966340# 430# 210# 25 14 17 3 2.8 2.5 4 4 12 220 60 210# 430# 640# 143 949990# 143 938510# 143 932077 143 922953 143 919600 143 913647 143 913305 143 910087.3 143 912591 143 911999 143 918817 143 922960 143 933050 143 939250 143 951480# 143 960380# 540# 320# 28 14 50 4 4 2.5 3 3 12 30 30 30 320# 430# 144 944070# 144 935526 144 927630 144 921650 144 917230 144 914512 144 912573.6 144 912749 144 913410 144 916265 144 921709 144 929270 144 937430 144 947200# 144 957390# 144 970070# 320# 12 80 100 40 8 2.5 3 3 4 20 60 50 320# 430# 430# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 146 Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm x 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 147 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 148 Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb + x x -p x + + + + − x x x -p + + + + +p x x x x Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -48670# -55620 -65000 -69120 -75680 -76710 -80931.1 -79460 -81002 -77122 -76093 -67770 -62554 -51570# -44710# -31280# 400# 70 70 70 70 60 2.3 5 4 6 5 50 27 200# 300# 400# 8115# 8157.6 8216.4 8239.3 8278.8 8280.6 8304.127 8288.69 8293.895 8261.96 8249.56 8187.2 8146.11 8065# 8013# 7916# 3# 0.5 0.5 0.5 0.5 0.4 0.016 0.03 0.025 0.04 0.03 0.3 0.19 1# 2# 3# β− β− β− β− β− β− β− β− -43260# -52020 -60600# -66850 -72030 -75455 -78151.9 -79047.9 -79272.1 -77550 -75363 -70752 -64188 -55837 -47050# -36370# 400# 50 210# 50 30 23 2.3 2.4 2.4 3 3 12 20 28 300# 300# 8078# 8132.5 8186# 8222.7 8252.63 8270.61 8283.638 8284.411 8280.614 8263.580 8243.378 8206.69 8156.71 8094.58 8029# 7951# 3# 0.4 1# 0.3 0.21 0.16 0.016 0.016 0.016 0.022 0.021 0.08 0.13 0.19 2# 2# β− β− β− β− β− β− β− β− -47300 -58010 -63130 -70391 -72531 -77413.4 -76872 -79342.2 -76302 -76275.8 -70540 -67859 -58020 -51650# -39270# -30350# 580 80 60 29 26 2.8 6 2.4 10 2.8 14 11 130 200# 400# 600# 8100 8167.3 8196.6 8240.34 8249.51 8277.213 8268.27 8279.673 8253.85 8248.382 8204.34 8180.94 8109.1 8061# 7972# 7906# 4 0.6 0.4 0.20 0.17 0.019 0.04 0.016 0.07 0.019 0.09 0.07 0.9 1# 3# 4# β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 6950# 9380 4120 6550 1040 4220 -1471 1542 * 3880 1029 8320 5220 10990# 6860# 13440# 410# 40 40 50 40 60 4 3 8760# 8580# 6250# 5180 3426 2697 896.0 224.1 * 1721.6 2187.4 4611 6564 8350 8790# 10690# 400# 210# 200# 40 20 23 0.9 0.3 10710 5110 7260 2140 4883 -542 2470 * 3040 27 5735 2681 9840 6360# 12380# 8920# 580 60 50 14 26 6 6 6 7 50 50 200# 360# 500# 2.3 2.8 12 23 30 300# 420# 10 10 14 10 130 240# 450# 720# 377 Atomic mass µu 145 947750# 145 940290 145 930220 145 925790 145 918760 145 917640 145 913116.9 145 914696 145 913041 145 917206 145 918311 145 927250 145 932845 145 944640# 145 952000# 145 966430# 430# 80 80 80 70 70 2.5 5 4 7 5 50 29 210# 320# 430# 146 953560# 146 944160 146 934950# 146 928240 146 922670 146 918996 146 916100.4 146 915138.5 146 914897.9 146 916746 146 919094 146 924045 146 931092 146 940060 146 949490# 146 960960# 430# 60 220# 50 30 25 2.5 2.6 2.6 3 3 13 21 30 320# 320# 147 949220 147 937720 147 932230 147 924430 147 922135 147 916893 147 917475 147 914822.7 147 918086 147 918115 147 924272 147 927150 147 937720 147 944550# 147 957840# 147 967420# 620 90 60 30 28 3 7 2.6 11 3 15 11 140 210# 430# 640# 378 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 149 Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb x x + + + 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 150 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 151 Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu − x x x x x x + + + x x -p x x x + + -n −α −α x +α εp -p Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -43850# -53490# -60800# -66700 -71060 -74380.9 -76071 -77141.9 -76447 -75133 -71496 -67715 -61688 -53742 -44040# -33500# 200# 200# 320# 100 80 2.8 4 2.4 4 4 4 9 18 28 300# 500# 8077# 8136# 8180# 8214.4 8238.4 8255.479 8261.573 8263.508 8253.590 8239.527 8209.864 8179.24 8133.54 8074.95 8005# 7929# 1# 1# 2# 0.7 0.6 0.019 0.028 0.016 0.029 0.027 0.029 0.06 0.12 0.19 2# 3# β− β− β− β− β− β− β− -38960# -50600# -57040# -64820 -68304 -73690 -73603 -77057.3 -74797 -75769 -71111 -69317 -61948 -57833 -46610# -38730# -24940# 300# 400# 400# 50 26 3 20 2.4 6 6 8 5 14 17 200# 400# 500# 8044# 8117# 8154# 8201.0 8218.95 8249.643 8243.85 8261.663 8241.38 8242.64 8206.37 8189.20 8134.86 8102.21 8022# 7964# 7867# 2# 3# 3# 0.3 0.17 0.021 0.13 0.016 0.04 0.04 0.05 0.03 0.09 0.11 1# 3# 3# β− β− β− β− β− β− β− β− β− -35220# -45820# -54290# -61500 -66771 -70953 -73395 -74582.5 -74659.1 -74195 -71630 -68759 -63632 -58266 -50782 -41540 -30200# 500# 400# 400# 100 23 3 5 2.4 2.5 4 5 4 12 16 20 300 400# 8020# 8085# 8136# 8178.1 8207.82 8230.338 8241.33 8244.012 8239.339 8231.084 8208.91 8184.719 8145.59 8104.87 8050.12 7983.8 7903# 3# 3# 3# 0.7 0.15 0.021 0.04 0.016 0.016 0.024 0.03 0.027 0.08 0.11 0.13 2.0 3# β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 9640# 7310# 5900# 4360 3320 1690 1071 * 695 1313 3637 3781 6027 7950 9700# 10550# 280# 370# 300# 50 80 3 4 11630# 6440# 7790# 3480 5386 -86 3454 -2260 971 * 4658 1794 7369 4115 11220# 7880# 13790# 500# 570# 400# 40 26 20 20 6 4 10600# 8470# 7210# 5270 4182 2442 1187 76.6 * 464.2 2565 2871 5127 5366 7484 9240 11340# 640# 570# 410# 100 23 4 5 0.5 4 4 4 9 16 30 300# 590# 8 8 15 14 200# 450# 640# 2.8 4 5 12 20 26 300 500# Atomic mass µu 148 952930# 148 942580# 148 934730# 148 928400 148 923720 148 920149 148 918334 148 917184.7 148 917931 148 919341 148 923246 148 927305 148 933775 148 942310 148 952720# 148 964040# 210# 210# 340# 100 90 3 4 2.6 5 4 5 9 20 30 320# 540# 149 958170# 149 945680# 149 938770# 149 930410 149 926673 149 920891 149 920984 149 917275.5 149 919702 149 918659 149 923660 149 925585 149 933496 149 937914 149 949960# 149 958420# 149 973230# 320# 430# 430# 50 28 3 22 2.6 7 7 8 5 15 18 210# 430# 540# 150 962190# 150 950810# 150 941720# 150 933980 150 928319 150 923829 150 921207 150 919932.4 150 919850.2 150 920348 150 923103 150 926185 150 931688 150 937449 150 945483 150 955400 150 967580# 540# 430# 430# 110 25 3 6 2.6 2.6 4 5 4 13 18 22 320 430# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 152 Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu x x x + 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 153 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 154 Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf +n − −α −α −α x − x x x x + + −α −α x +α x x x + + + − −α −α −α +α x Mass excess (keV) Binding energy per nucleon (keV) 379 Beta-decay energy (keV) -42600# -50070# -59110# -63810 -70158 -71262 -74768.8 -72894.5 -74714.2 -70720 -70124 -63608 -60500 -51770 -46310 -33420# 500# 400# 200# 120 25 26 2.5 2.5 2.5 40 5 14 11 70 210 200# 8063# 8107# 8162# 8187.4 8224.06 8226.18 8244.102 8226.624 8233.449 8202.05 8192.96 8144.94 8119.35 8056.8 8015.7 7926# 3# 3# 1# 0.8 0.16 0.17 0.016 0.016 0.017 0.26 0.03 0.09 0.07 0.5 1.4 1# β− β− β− β− β− β− β− β− -37620# -46930# -55350# -61630 -67349 -70685 -72565.8 -73373.5 -72889.8 -71320 -69150 -65019 -60488 -54015 -47060# -38410 -27300# 800# 600# 400# 100 27 11 2.5 2.5 2.5 4 5 6 9 18 200# 210 500# 8031# 8087# 8137# 8172.4 8204.70 8221.39 8228.574 8228.740 8220.465 8205.093 8185.793 8153.68 8118.95 8071.54 8021# 7959.3 7882# 5# 4# 3# 0.7 0.18 0.07 0.016 0.016 0.016 0.029 0.030 0.04 0.06 0.12 1# 1.4 3# β− β− β− β− β− β− β− -42380# -52700# -58200 -65690 -68500 -72461.6 -71744.4 -73713.2 -70160 -70398 -64644 -62612 -54429 -49934 -39570# -32730# 600# 500# 150 110 40 2.5 2.5 2.5 50 8 8 5 14 17 200# 500# 8057# 8119# 8149.5 8193.1 8206.22 8226.876 8217.139 8224.843 8196.70 8193.16 8150.71 8132.44 8074.22 8039.95 7968# 7918# 4# 3# 1.0 0.7 0.29 0.017 0.016 0.016 0.29 0.05 0.05 0.04 0.09 0.11 1# 3# β− β− β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 7470# 9050# 4700# 6350 1104 3506 -1874.3 1819.7 * 3990 600 6516 3108 8730 5470 12880# 640# 450# 230# 120 19 26 0.7 1.2 9310# 8420# 6280# 5720 3336 1881 807.6 * 483.6 1570 2170.5 4130 4531 6473 6960# 8650# 11110# 1000# 720# 410# 100 25 11 0.7 10320# 5500# 7490 2810 3960 -717.2 1968.8 -3550 240 * 5754 2032 8183 4496 10370# 6840# 780# 530# 100 120 40 1.1 1.1 50 50 40 40 15 10 70 200 290# 1.2 4 1.9 6 10 16 200# 290# 550# 10 10 15 14 200# 540# Atomic mass µu 151 954270# 151 946250# 151 936540# 151 931500 151 924682 151 923497 151 919732.4 151 921744.5 151 919791.0 151 924070 151 924718 151 931714 151 935050 151 944420 151 950290 151 964120# 540# 430# 210# 130 26 28 2.7 2.6 2.7 40 6 15 11 80 220 210# 152 959610# 152 949620# 152 940580# 152 933840 152 927698 152 924117 152 922097.4 152 921230.3 152 921749.5 152 923435 152 925765 152 930199 152 935063 152 942012 152 949480# 152 958770 152 970690# 860# 640# 430# 110 29 12 2.7 2.6 2.7 5 5 6 9 20 210# 220 540# 153 954500# 153 943420# 153 937520 153 929480 153 926460 153 922209.3 153 922979.2 153 920865.6 153 924680 153 924424 153 930602 153 932783 153 941568 153 946394 153 957520# 153 964860# 640# 540# 160 120 50 2.7 2.6 2.7 50 8 9 6 15 19 220# 540# 380 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 155 La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta x x x + + -n 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 156 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 157 Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta + +n x −α −α −α +α x -p x x + + x x −α −α −α −α -p x x x + + x x x IT −α IT Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -38800# -48400# -55780# -62470# -66970 -70197.2 -71824.5 -72077.1 -71254 -69160 -66040 -62215 -56635 -50503 -42554 -34100# -23670# 800# 600# 300# 150# 30 2.6 2.5 2.5 12 12 18 7 13 17 20 400# 500# 8034# 8091# 8133# 8172# 8195.51 8211.264 8216.715 8213.297 8202.94 8184.38 8159.20 8129.48 8088.44 8043.83 7987.49 7928# 7856# 5# 4# 2# 1# 0.19 0.017 0.016 0.016 0.08 0.08 0.12 0.04 0.09 0.11 0.13 3# 3# β− β− β− β− β− β− β− -45400# -51910# -60530 -64220 -69370 -70093 -72542.2 -70098 -70530 -65350 -64213 -56840 -53264 -43750 -37850 -25800# 600# 400# 200 30 10 6 2.5 4 7 40 24 16 11 70 210 400# 8071# 8108# 8158.4 8177.07 8205.07 8204.68 8215.368 8194.682 8192.44 8154.25 8141.91 8089.64 8061.70 7995.7 7952.9 7871# 4# 3# 1.3 0.22 0.06 0.04 0.016 0.028 0.04 0.29 0.16 0.10 0.07 0.5 1.3 3# β− β− β− β− β− β− β− β− -40670# -48970# -56790# -62370 -66730 -69467 -70830.7 -70770.6 -69428 -66829 -63420 -58709 -53442 -46483 -38750# -29630 700# 400# 200# 110 50 5 2.5 2.5 7 24 28 28 10 19 200# 210 8041# 8089# 8134# 8164.6 8187.4 8199.85 8203.550 8198.184 8184.65 8163.11 8136.41 8101.43 8062.89 8013.59 7959# 7896.3 4# 3# 1# 0.7 0.3 0.03 0.016 0.016 0.04 0.16 0.18 0.18 0.06 0.12 1# 1.3 β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 9600# 7380# 6700# 4500# 3220 1627.2 252.7 * 823 2094.5 3120 3824 5580 6132 7949 8450# 10430# 1000# 670# 340# 150# 30 1.2 1.2 6510# 8620# 3690 5150 723 2449 -2445 432 * 5180 1140 7373 3575 9510 5900 12050# 720# 450# 200 30 8 5 4 7 8300# 7830# 5580# 4360 2730 1363 * 60.05 1343 2599 3410 4710 5267 6959 7730# 9130# 12 1.9 22 19 14 21 26 400# 640# 50 50 29 13 70 200 450# 810# 450# 230# 100 50 5 0.30 6 25 40 40 30 18 200# 290# Atomic mass µu 154 958350# 154 948040# 154 940120# 154 932930# 154 928100 154 924640.2 154 922893.3 154 922622.0 154 923505 154 925754 154 929103 154 933209 154 939199 154 945782 154 954316 154 963390# 154 974590# 860# 640# 320# 160# 30 2.8 2.7 2.7 13 13 19 7 14 18 22 430# 540# 155 951260# 155 944270# 155 935020 155 931060 155 925528 155 924752 155 922122.7 155 924747 155 924283 155 929840 155 931065 155 938980 155 942818 155 953030 155 959360 155 972300# 640# 430# 220 40 10 6 2.7 5 7 50 26 17 12 80 220 430# 156 956340# 156 947430# 156 939030# 156 933040 156 928360 156 925424 156 923960.1 156 924024.6 156 925466 156 928256 156 931920 156 936970 156 942628 156 950098 156 958400# 156 968190 750# 430# 210# 120 50 6 2.7 2.7 7 26 30 30 11 20 210# 220 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 158 Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W x x + + + 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 159 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 160 Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re − −α −α +α −α x x x + − − x x x −α IT −α x x x + − x x x x −α −α −α -p Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -44730# -54400# -59090 -65210 -67210 -70696.8 -69477.2 -70412 -66191 -65304 -58703 -56015 -47214 -42104 -31020# -23700# 600# 400# 130 80 80 2.5 2.6 3 27 25 25 8 15 18 200# 500# 8062# 8119# 8143.3 8177.1 8184.8 8201.865 8189.195 8190.160 8158.49 8147.93 8101.20 8079.23 8018.58 7981.29 7906# 7855# 4# 3# 0.8 0.5 0.5 0.016 0.017 0.022 0.17 0.16 0.16 0.05 0.10 0.11 1# 3# β− β− β− β− β− β− β− -41450# -50220# -56850# -62210 -66053 -68568.5 -69539.0 -69173.5 -67336 -64567 -60570 -55843 -49710 -42854 -34448 -25230# 700# 500# 200# 100 7 2.5 2.6 2.7 4 4 28 18 40 17 21 400# 8042# 8092# 8129# 8157.5 8176.76 8187.659 8188.842 8181.623 8165.145 8142.813 8112.75 8078.10 8034.64 7986.57 7928.78 7866# 4# 3# 1# 0.6 0.05 0.016 0.016 0.017 0.024 0.027 0.18 0.12 0.24 0.11 0.13 3# β− β− β− β− β− β− -47420# -53100# -60420# -63370# -67948.6 -67842.9 -69678.1 -66388 -66058 -60300 -58170 -50270 -45937 -35880 -29360 -16660# 600# 300# 200# 200# 2.6 2.6 2.5 15 24 30 17 60 12 90 210 400# 8074# 8105# 8146# 8159# 8183.057 8177.507 8184.087 8158.63 8151.69 8110.82 8092.60 8038.3 8006.37 7938.6 7893.0 7809# 4# 2# 1# 1# 0.016 0.016 0.016 0.10 0.15 0.21 0.10 0.4 0.07 0.6 1.3 3# β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 9670# 4690# 6120 1999 3490 -1219.5 934.9 * 4221 890 6600 2688 8800 5110 11090# 7320# 720# 420# 100 15 80 0.9 2.6 8770# 6630# 5360# 3840 2515 970.5 * 365.6 1837.6 2768.5 3997 4730 6130 6860 8405 9220# 860# 540# 220# 100 7 0.7 5680# 7310# 2950# 4580# -105.7 1835.1 * 3290 330 5760 2130 7900 4330 10060 6510 12700# 670# 360# 280# 200# 1.0 1.3 27 40 30 27 17 15 200# 540# 1.2 2.7 2.0 28 30 40 40 27 400# 15 29 40 40 60 60 90 200 450# 381 Atomic mass µu 157 951980# 157 941600# 157 936560 157 929990 157 927850 157 924103.9 157 925413.1 157 924409 157 928941 157 929893 157 936980 157 939866 157 949313 157 954799 157 966700# 157 974560# 640# 430# 140 80 80 2.7 2.8 4 29 27 27 9 16 19 220# 540# 158 955500# 158 946090# 158 938970# 158 933210 158 929089 158 926388.7 158 925346.8 158 925739.2 158 927712 158 930684 158 934980 158 940050 158 946630 158 953995 158 963018 158 972920# 750# 540# 210# 110 8 2.7 2.7 2.9 4 5 30 20 40 18 22 430# 159 949090# 159 942990# 159 935140# 159 931970# 159 927054.1 159 927167.6 159 925197.5 159 928729 159 929083 159 935260 159 937552 159 946030 159 950684 159 961490 159 968480 159 982120# 640# 320# 210# 220# 2.7 2.7 2.7 16 26 40 18 60 12 100 220 430# 382 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 161 Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re x x x x -n 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 162 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 163 Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os +n x x x IT −α -p x x x -nn + − x x −α −α −α +α −α x x x x +p − x x x −α −α IT −α Mass excess (keV) Binding energy per nucleon (keV) -42960# -50430# -56980# -61780# -65512.7 -67468.2 -68061.1 -67203 -65209 -61899 -57844 -52562 -46319 -38730# -30410# -20880 700# 500# 300# 300# 2.7 2.6 2.5 3 9 28 16 28 23 60# 200# 210 8047# 8088# 8124# 8149# 8167.233 8174.520 8173.344 8163.153 8145.91 8120.49 8090.45 8052.78 8009.14 7957# 7901# 7836.5 4# 3# 2# 2# 0.017 0.016 0.016 0.020 0.06 0.17 0.10 0.17 0.14 0# 1# 1.3 -46310# -54750# -58650# -64287 -65680 -68186.8 -66047 -66343 -61484 -59832 -52840 -49173 -39780 -34002 -22350# -14500# 700# 500# 300# 5 40 2.5 4 3 26 16 80 10 50 18 200# 500# 8063# 8110# 8129# 8159.077 8162.85 8173.490 8155.452 8152.447 8117.62 8102.60 8054.6 8027.15 7964.3 7923.84 7847# 7794# 4# 3# 2# 0.028 0.23 0.016 0.024 0.021 0.16 0.10 0.5 0.06 0.3 0.11 1# 3# -43150# -50900# -56630# -61490# -64601 -66386.5 -66383.9 -65174 -62735 -59304 -54791 -49286 -42540 -34910 -26007 -16120# 800# 700# 500# 300# 5 2.5 2.5 5 6 16 28 28 40 50 20 400# 8043# 8086# 8116# 8141# 8155.666 8161.818 8157.002 8144.78 8125.02 8099.17 8066.68 8028.11 7981.93 7930.3 7870.89 7805# 5# 4# 3# 2# 0.029 0.016 0.016 0.03 0.04 0.10 0.17 0.17 0.23 0.3 0.12 2# Beta-decay energy (keV) β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 7470# 6550# 4800# 3740# 1955.5 592.9 * 858.3 1994 3310 4050 5280 6240 7590# 8330# 9530# 8450# 3890# 5640# 1390 2510 -2140 296 * 4859 1650 6990 3660 9390 5780 11650# 7850# 7750# 5730# 4860# 3110# 1785 * 2.555 1210 2439 3431 4510 5510 6750 7630 8900 9880# 860# 590# 420# 300# 1.4 1.3 2.2 9 29 30 30 40 60# 200# 290# 860# 590# 300# 40 40 3 4 26 30 80 80 50 50 200# 540# 1060# 860# 590# 300# 4 0.016 5 3 17 30 40 50 70 60 400# Atomic mass µu 160 953880# 160 945860# 160 938830# 160 933680# 160 929669.2 160 927569.9 160 926933.4 160 927855 160 929995 160 933550 160 937902 160 943570 160 950275 160 958420# 160 967360# 160 977590 750# 540# 320# 320# 2.9 2.8 2.7 3 10 30 17 30 24 60# 210# 220 161 950290# 161 941220# 161 937040# 161 930985 161 929490 161 926798.4 161 929096 161 928778 161 933995 161 935768 161 943280 161 947210 161 957290 161 963497 161 976000# 161 984430# 750# 540# 320# 5 40 2.7 4 4 28 17 80 10 60 19 220# 540# 162 953680# 162 945360# 162 939210# 162 933990# 162 930648 162 928731.2 162 928733.9 162 930033 162 932651 162 936334 162 941180 162 947090 162 954330 162 962520 162 972081 162 982690# 860# 750# 540# 320# 5 2.7 2.7 6 6 17 30 30 40 60 21 430# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 164 Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir x x x + 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 165 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 166 Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt x x x +α x −α +α −α −α x x x x -n x x x +α +α −α IT x x + -n − +nn x x x −α IT −α -p −α Mass excess (keV) Binding energy per nucleon (keV) -48180# -53100# -59750# -62080 -65973.3 -64987.1 -65950 -61888 -61023 -54642 -51822 -43283 -38234 -27640# -20460 -7270# 800# 600# 400# 100 2.5 2.8 3 28 16 28 20 28 12 160# 210 410# 8069# 8095# 8130# 8139.8 8158.746 8147.963 8149.061 8119.53 8109.48 8065.80 8043.83 7987.00 7951.44 7882# 7833.5 7748# 5# 4# 2# 0.6 0.015 0.017 0.019 0.17 0.10 0.17 0.12 0.17 0.07 1# 1.3 3# -43800# -50560# -56470# -60660# -63617.9 -64904.6 -64528 -62936 -60287 -56442 -51636 -45855 -38862 -30657 -21650# -11630# 900# 700# 500# 200# 2.5 2.5 3 3 28 27 28 17 25 28 200# 220# 8043# 8079# 8110# 8131# 8143.942 8146.998 8139.976 8125.584 8104.79 8076.75 8042.87 8003.10 7955.97 7901.50 7842# 7777# 5# 4# 3# 1# 0.015 0.015 0.019 0.020 0.17 0.16 0.17 0.11 0.15 0.17 1# 1# -46600# -54400# -57760 -62590.1 -63076.9 -64931.6 -61894 -61588 -56021 -53859 -46098 -41892 -31850# -25438 -13210# -4790# 800# 600# 100 2.6 2.5 2.5 12 8 30 28 28 10 90# 18 200# 500# 8055# 8097# 8112.9 8137.313 8135.532 8141.992 8118.98 8112.43 8074.17 8056.44 8004.97 7974.92 7910# 7866.38 7788# 7733# 5# 4# 0.6 0.015 0.015 0.015 0.07 0.05 0.18 0.17 0.17 0.06 1# 0.11 1# 3# 383 Beta-decay energy (keV) β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 4930# 6640# 2340# 3890 -986.2 962.5 * 4061 870 6380 2820 8540 5050 10590# 7180# 13200# 1000# 720# 410# 100 1.4 2.3 6760# 5910# 4190# 2960# 1286.6 * 376.3 1592.4 2649 3840 4810 5780 6990 8210 9010# 10020# 1140# 860# 540# 200# 0.9 7800# 3360# 4830 486.8 1854.7 * 3038 305 5570 2160 7760 4206 10040# 6410# 12230# 8410# 1000# 600# 100 1.0 0.9 28 30 30 30 30 30 160# 240# 460# 2.0 1.5 28 40 40 30 30 40 200# 300# 12 14 30 40 40 30 90# 90# 200# 540# Atomic mass µu 163 948280# 163 942990# 163 935860# 163 933350 163 929174.8 163 930233.5 163 929200 163 933560 163 934489 163 941340 163 944367 163 953530 163 958954 163 970320# 163 978040 163 992200# 860# 640# 430# 110 2.7 3.0 3 30 17 30 22 30 13 170# 220 440# 164 952980# 164 945720# 164 939380# 164 934880# 164 931703.3 164 930322.1 164 930726 164 932435 164 935280 164 939407 164 944570 164 950773 164 958280 164 967089 164 976760# 164 987520# 970# 750# 540# 210# 2.7 2.7 3 4 30 28 30 19 27 30 220# 230# 165 949970# 165 941600# 165 937990 165 932806.7 165 932284.2 165 930293.1 165 933554 165 933882 165 939860 165 942180 165 950510 165 955027 165 965810# 165 972691 165 985820# 165 994860# 860# 640# 110 2.8 2.7 2.7 13 9 30 30 30 11 90# 20 220# 540# 384 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 167 Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt x x x + p2n 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 168 Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt x x +pp + 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 169 Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au x x + +p x x x +α +α −α -p −α − x x +α −α −α IT −α − x x −α +α −α x Mass excess (keV) Binding energy per nucleon (keV) -43590# -50700# -55840# -59940 -62287 -63296.7 -62548.3 -60594 -57500 -53468 -48351 -42089 -34840# -26500 -17079 -6540# 800# 600# 400# 60 6 2.5 2.7 5 30 28 28 19 50# 70 19 410# 8037# 8075# 8101# 8121.0 8130.41 8131.779 8122.613 8106.226 8083.02 8054.18 8018.86 7976.68 7929# 7874.0 7812.86 7745# 5# 4# 2# 0.4 0.03 0.015 0.016 0.028 0.19 0.17 0.17 0.12 0# 0.4 0.11 2# -48100# -52500# -58560 -60070 -62996.7 -61317.7 -61575 -57060 -55361 -48394 -44890 -35790 -29991 -18740# -11040 700# 500# 140 30 2.5 2.9 4 50 28 28 16 30 12 150# 210 8060# 8081# 8112.6 8116.85 8129.634 8114.982 8111.855 8080.35 8065.55 8019.43 7993.92 7935.12 7895.91 7824# 7773.8 4# 3# 0.8 0.18 0.015 0.017 0.026 0.28 0.17 0.17 0.10 0.18 0.07 1# 1.2 -43900# -50100# -55600 -58803 -60928.7 -61280.0 -60370 -58077 -54717 -50290 -44918 -38386 -30721 -22081 -12380# -1790# 800# 600# 300 20 2.5 2.5 4 5 28 28 15 28 25 26 200# 300# 8035# 8067# 8094.8 8109.10 8117.052 8114.501 8104.489 8086.29 8061.78 8030.96 7994.54 7951.26 7901.28 7845.52 7783# 7716# 5# 4# 1.8 0.12 0.015 0.015 0.026 0.03 0.17 0.17 0.09 0.17 0.15 0.16 1# 2# Beta-decay energy (keV) β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 7120# 5140# 4090# 2350 1010 * 748.4 1954 3090 4030 5120 6260 7250# 8330# 9420 10540# 1000# 720# 410# 60 5 4400# 6070# 1500 2930 -1679.1 257 * 4510 1700 6970 3500 9100 5800 11250# 7700# 860# 520# 140 30 1.9 4 6190# 5510# 3200 2126 351.3 * 910 2293 3360 4430 5370 6530 7660 8640 9710# 10590# 1.5 4 30 40 40 30 60# 90# 80 410# 50 50 40 30 30 30 150# 240# 1000# 670# 300 20 1.1 4 3 28 40 30 30 40 40 200# 360# Atomic mass µu 166 953210# 166 945570# 166 940050# 166 935660 166 933133 166 932048.2 166 932851.6 166 934950 166 938270 166 942600 166 948090 166 954816 166 962600# 166 971550 166 981665 166 992980# 860# 640# 430# 60 6 2.7 2.9 5 30 30 30 21 60# 80 20 440# 167 948360# 167 943640# 167 937130 167 935520 167 932370.2 167 934173 167 933897 167 938740 167 940570 167 948050 167 951808 167 961570 167 967804 167 979880# 167 988150 750# 540# 150 30 2.7 3 5 50 30 30 17 30 13 160# 220 168 952870# 168 946220# 168 940310 168 936872 168 934590.4 168 934213.3 168 935190 168 937651 168 941260 168 946010 168 951779 168 958790 168 967019 168 976295 168 986720# 168 998080# 860# 640# 320 22 2.7 2.7 5 6 30 30 17 30 27 28 220# 320# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 170 Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au x x + 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 171 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 172 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 173 Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg − x x +α x −α −α −α -p x x + x x x x −α −α IT x x x x x x +α +α −α −α −α −α x x x p2n x x x x +α −α +α −α Mass excess (keV) Binding energy per nucleon (keV) -46340# -53660# -56240 -60114.6 -59800.6 -60769.0 -57310 -56254 -50138 -47293 -38918 -33928 -23320# -16306 -3610# 700# 200# 50 2.8 2.5 2.4 17 28 28 15 26 11 100# 19 200# 8045# 8083# 8093.83 8111.994 8105.545 8106.639 8081.69 8070.88 8030.30 8008.96 7955.09 7921.14 7854# 7808.27 7729# 4# 1# 0.29 0.016 0.015 0.014 0.10 0.16 0.16 0.09 0.15 0.06 1# 0.11 1# -43500# -50110# -54520 -57724.9 -59215.6 -59312.1 -57833.5 -55431 -51720 -47086 -41250 -34293 -26430 -17470 -7565 3500# 800# 300# 600 2.8 2.6 2.4 2.8 29 28 28 28 19 40 90 26 300# 8028# 8062# 8084 8097.781 8101.923 8097.913 8084.691 8066.07 8039.79 8008.12 7969.41 7924.15 7873.59 7816.6 7754.12 7685# 5# 2# 4 0.016 0.015 0.014 0.016 0.17 0.16 0.16 0.16 0.11 0.23 0.5 0.15 2# -47730# -51400# -56489 -57380 -59260.3 -56741.3 -56404 -51330 -49097 -41520 -37238 -27520# -21101 -9280# -1090 400# 400# 5 6 2.4 3.0 24 28 28 50 15 110# 13 160# 210 8049# 8065# 8090.444 8091.07 8097.457 8078.263 8071.75 8037.70 8020.17 7971.6 7942.13 7881# 7839.21 7766# 7713.8 2# 2# 0.027 0.03 0.014 0.017 0.14 0.16 0.16 0.3 0.08 1# 0.07 1# 1.2 -43780# -49100# -53650# -56259 -57556.3 -56885.8 -55412 -52397 -48727 -43554 -37438 -30272 -21940 -12820 -2570# 500# 400# 200# 5 2.4 2.4 28 28 28 28 15 14 60 26 210# 8026# 8052# 8074# 8084.479 8087.456 8079.058 8066.02 8044.06 8018.33 7983.91 7944.03 7898.09 7845.4 7788.16 7724# 3# 2# 1# 0.029 0.014 0.014 0.16 0.16 0.16 0.16 0.09 0.08 0.3 0.15 1# Beta-decay energy (keV) β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 7320# 2580# 3870 -314.0 968.3 * 3459 1060 6120 2840 8376 4990 10610# 7010# 12690# 730# 200# 50 1.8 0.8 17 30 40 30 30 28 100# 100# 200# 6610# 4410# 3200 1490.7 96.5 * 1478.6 2402 3710 4630 5840 6960 7860 8960 9910 11070# 860# 670# 600 1.2 1.0 3670# 5090# 891 1880 * 2518.9 338 5070 2230 7570 4290 9720# 6420# 11820# 8200# 570# 400# 5 6 5320# 4560# 2610# 1297 * 670.5 1474 3020 3670 5170 6120 7166 8330 9120 10250# 1.9 29 40 40 40 30 40 100 90 300# 2.4 25 40 40 60 60 110# 110# 160# 240# 640# 450# 200# 5 1.7 28 40 40 40 30 20 60 60 210# 385 Atomic mass µu 169 950250# 169 942390# 169 939620 169 935464.3 169 935801.4 169 934761.8 169 938475 169 939610 169 946180 169 949228 169 958220 169 963577 169 974970# 169 982495 169 996120# 750# 210# 50 3.0 2.7 2.6 18 30 30 16 28 12 110# 20 220# 170 953300# 170 946200# 170 941470 170 938029.8 170 936429.4 170 936325.8 170 937913.1 170 940490 170 944480 170 949450 170 955720 170 963185 170 971630 170 981240 170 991879 171 003760# 860# 320# 640 3.0 2.8 2.6 3.0 30 30 30 30 20 40 90 28 320# 171 948760# 171 944820# 171 939356 171 938400 171 936381.5 171 939086 171 939448 171 944900 171 947290 171 955420 171 960023 171 970460# 171 977347 171 990040# 171 998830 430# 430# 5 6 2.6 3 26 30 30 60 16 110# 14 170# 220 172 953000# 172 947290# 172 942400# 172 939604 172 938210.8 172 938930.6 172 940510 172 943750 172 947690 172 953240 172 959808 172 967502 172 976440 172 986237 172 997240# 540# 430# 210# 5 2.6 2.6 30 30 30 30 16 15 60 28 220# 386 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 107 106 105 104 103 102 101 100 99 98 97 96 95 94 67 68 69 70 71 72 73 74 75 76 77 78 79 80 174 Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg x x + 108 107 106 105 104 103 102 101 100 99 98 97 96 95 67 68 69 70 71 72 73 74 75 76 77 78 79 80 175 108 107 106 105 104 103 102 101 100 99 98 97 96 95 68 69 70 71 72 73 74 75 76 77 78 79 80 81 176 109 108 107 106 105 104 103 102 101 100 99 98 97 96 68 69 70 71 72 73 74 75 76 77 78 79 80 81 177 Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl x x x +α −α −α −α −α x x + x x x +α −α −α x + x x x x +α −α −α x x x -n − x x +α x −α IT Mass excess (keV) Binding energy per nucleon (keV) -45500# -51950# -53870 -56949.6 -55575.3 -55846.6 -51741 -50227 -43673 -39996 -30869 -25319 -14200# -6647 500# 300# 40 2.4 2.4 2.8 28 28 28 11 28 12 100# 20 8032# 8064# 8070.67 8083.876 8071.482 8068.545 8040.45 8027.26 7985.09 7959.47 7902.51 7866.12 7798# 7749.82 3# 2# 0.26 0.014 0.014 0.016 0.16 0.16 0.16 0.06 0.16 0.07 1# 0.11 -42800# -48650# -52320 -54700.6 -55170.7 -54483.8 -52409 -49633 -45288 -40105 -33429 -25690 -17440 -7990 600# 400# 50 2.4 2.2 2.8 28 28 28 14 20 19 40 100 8016# 8045# 8061.80 8070.954 8069.169 8060.774 8044.44 8024.11 7994.82 7960.72 7918.11 7869.41 7817.82 7759.3 3# 2# 0.29 0.014 0.012 0.016 0.16 0.16 0.16 0.08 0.11 0.11 0.24 0.6 -46500# -49370 -53494.1 -53387.4 -54577.5 -51370 -50642 -45063 -42098 -33861 -28928 -18540# -11779 550# 400# 100 2.6 2.2 2.2 30 28 28 28 20 14 110# 14 200# 8033# 8045.1 8064.100 8059.049 8061.366 8038.67 8030.11 7993.97 7972.68 7921.43 7888.96 7825# 7782.63 7708# 2# 0.6 0.015 0.012 0.013 0.17 0.16 0.16 0.16 0.12 0.08 1# 0.08 1# -42800# -47470# -50989.2 -52389.0 -52889.6 -51724 -49702 -46269 -41950 -36047 -29370 -21550 -12780 -3328 500# 300# 2.6 2.2 2.1 4 28 28 16 20 15 13 80 25 8013# 8035# 8049.989 8053.478 8051.886 8040.878 8025.04 8001.22 7972.40 7934.63 7892.49 7843.89 7789.9 7732.10 3# 2# 0.015 0.012 0.012 0.021 0.16 0.16 0.09 0.11 0.08 0.07 0.4 0.14 Beta-decay energy (keV) β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ 6450# 1920# 3080 -1374.3 271.3 * 4106 1510 6550 3680 9128 5550 11120# 7550# 590# 300# 40 1.6 2.1 28 40 40 30 30 30 100# 100# 5850# 3660# 2390 470.1 * 686.8 2075 2780 4340 5180 6676 7739 8250 9450 720# 400# 50 1.3 2870# 4120 -106.8 1190.2 * 3210 720 5580 2960 8240 4933 10390# 6760# 12330# 410# 100 1.6 0.8 4670# 3520# 1399.8 500.6 * 1166 2022 3430 4320 5902 6677 7820 8770 9450 1.9 28 40 40 30 24 27 50 110 30 40 40 40 30 25 110# 110# 200# 590# 300# 1.6 0.7 3 28 40 30 25 25 20 80 80 Atomic mass µu 173 951150# 173 944230# 173 942170 173 938862.1 173 940337.5 173 940046 173 944450 173 946080 173 953120 173 957062 173 966861 173 972819 173 984760# 173 992864 540# 320# 50 2.6 2.6 3 30 30 30 12 30 13 110# 21 174 954050# 174 947770# 174 943840 174 941276.5 174 940771.8 174 941509 174 943740 174 946720 174 951380 174 956946 174 964113 174 972421 174 981270 174 991420 640# 430# 50 2.6 2.3 3 30 30 30 15 21 20 50 110 175 950080# 175 946990 175 942571.7 175 942686.3 175 941408.6 175 944860 175 945630 175 951620 175 954810 175 963649 175 968945 175 980100# 175 987355 176 000590# 430# 110 2.8 2.3 2.4 30 30 30 30 22 15 110# 15 210# 176 954050# 176 949040# 176 945260.8 176 943758.1 176 943220.7 176 944472 176 946640 176 950330 176 954965 176 961302 176 968469 176 976865 176 986280 176 996427 540# 320# 2.8 2.3 2.3 4 30 30 17 21 16 14 80 27 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 109 108 107 106 105 104 103 102 101 100 99 98 97 96 69 70 71 72 73 74 75 76 77 78 79 80 81 82 178 Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb x -nn 110 109 108 107 106 105 104 103 102 101 100 99 98 97 69 70 71 72 73 74 75 76 77 78 79 80 81 82 179 110 109 108 107 106 105 104 103 102 101 100 99 98 70 71 72 73 74 75 76 77 78 79 80 81 82 180 111 110 109 108 107 106 105 104 103 102 101 100 99 70 71 72 73 74 75 76 77 78 79 80 81 82 181 Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb − − x +α x +α −α −α −α −α x x +n x +α +α +α −α x x + x +α x +α −α −α x x 4n x x x −α −α Mass excess (keV) Binding energy per nucleon (keV) -44120# -49698 -50343.0 -52444.3 -50507 -50416 -45653 -43546 -36252 -31998 -22330 -16317 -4750# 3568 400# 10 2.9 2.1 15 15 28 16 20 11 60 13 110# 24 8016# 8042.86 8042.083 8049.493 8034.22 8029.31 7998.16 7981.92 7936.55 7908.26 7849.5 7811.37 7742# 7690.87 2# 0.06 0.016 0.012 0.09 0.09 0.16 0.09 0.11 0.06 0.3 0.07 1# 0.14 -41600# -46420# -49064 -50471.9 -50366.3 -49304 -46586 -43020 -38077 -32264 -24952 -16922 -8300 2000# 500# 300# 5 2.1 2.2 16 24 18 11 9 17 27 40 200# 8002# 8025# 8035.10 8038.596 8033.636 8023.33 8003.78 7979.48 7947.50 7910.65 7865.43 7816.20 7763.67 7702# 3# 2# 0.03 0.012 0.012 0.09 0.14 0.10 0.06 0.05 0.09 0.15 0.24 1# -44400# -46690 -49788.4 -48936.2 -49644 -45840 -44359 -37978 -34436 -25596 -20245 -9400# -1939 400# 70 2.1 2.2 4 21 20 22 11 21 14 120# 21 8014# 8022.1 8034.981 8025.900 8025.488 8000.00 7987.43 7947.63 7923.61 7870.16 7836.08 7771# 7725.69 2# 0.4 0.012 0.012 0.022 0.12 0.11 0.12 0.06 0.12 0.08 1# 0.12 -40850# -44740# -47411.9 -48441.6 -48254 -46511 -43550 -39472 -34375 -27871 -20661 -12801 -3140 400# 300# 2.1 1.8 5 13 30 26 15 20 15 9 90 7994# 8012# 8022.052 8023.418 8018.059 8004.11 7983.44 7956.57 7924.09 7883.84 7839.68 7791.93 7734.3 2# 2# 0.012 0.010 0.026 0.07 0.17 0.14 0.08 0.11 0.08 0.05 0.5 387 Beta-decay energy (keV) β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ 5580# 645 2101.3 * 1937 91.3 4760 2110 7294 4254 9670 6010 11560# 8320# 400# 10 2.0 15 2.0 30 30 26 23 60 60 110# 120# 4820# 2650# 1408 * 105.6 1063 2717 3570 4943 5814 7312 8030 8620 10300# 590# 300# 5 2280# 3100 -852.2 708 * 3805 1481 6381 3542 8840 5352 10840# 7460# 410# 70 2.5 4 3890# 2670# 1029.8 * 188 1743 2960 4080 5097 6503 7210 7860 9660 0.4 16 29 30 21 14 19 30 50 200# 22 29 30 24 24 25 120# 120# 500# 300# 2.1 5 13 30 40 30 25 25 18 90 Atomic mass µu 177 952640# 177 946647 177 945955 177 943698.8 177 945778 177 945876 177 950990 177 953251 177 961082 177 965649 177 976030 177 982483 177 994900# 178 003830 430# 11 3 2.3 16 16 30 18 21 12 60 14 120# 26 178 955340# 178 950170# 178 947327 178 945816.1 178 945929.5 178 947070 178 949988 178 953816 178 959122 178 965363 178 973213 178 981834 178 991090 179 002150# 540# 320# 6 2.3 2.3 17 26 19 12 10 18 29 50 210# 179 952330# 179 949880 179 946550.0 179 947464.8 179 946704 179 950789 179 952379 179 959229 179 963031 179 972521 179 978266 179 989910# 179 997918 430# 80 2.3 2.4 4 23 22 23 12 23 15 130# 22 180 956150# 180 951970# 180 949101.2 180 947995.8 180 948197 180 950068 180 953240 180 957625 180 963097 180 970079 180 977819 180 986257 180 996620 430# 320# 2.3 1.9 5 14 30 28 16 21 17 10 100 388 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 111 110 109 108 107 106 105 104 103 102 101 100 71 72 73 74 75 76 77 78 79 80 81 82 182 Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb x -nn 112 111 110 109 108 107 106 105 104 103 102 101 71 72 73 74 75 76 77 78 79 80 81 82 183 113 112 111 110 109 108 107 106 105 104 103 102 101 71 72 73 74 75 76 77 78 79 80 81 82 83 184 113 112 111 110 109 108 107 106 105 104 103 102 72 73 74 75 76 77 78 79 80 81 82 83 185 Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi IT +α −α x −α −α x + -n − x +α −α x + + x −α −α x + x x −α −α IT −α IT Mass excess (keV) Binding energy per nucleon (keV) -41880# -46059 -46433.3 -48247.5 -45450 -44609 -39052 -36169 -28301 -23576 -13350 -6826 200# 6 1.8 0.8 100 22 21 16 20 10 80 14 7996# 8014.89 8012.647 8018.316 7998.6 7989.73 7954.89 7934.76 7887.23 7856.97 7796.5 7756.34 1# 0.04 0.010 0.005 0.6 0.12 0.12 0.09 0.11 0.05 0.4 0.08 -39520# -43290 -45296.1 -46367.0 -45811 -43660 -40197 -35772 -30187 -23800 -16587 -7569 300# 30 1.8 0.8 8 50 25 16 10 8 10 28 7984# 8000.04 8006.753 8008.330 8001.02 7985.00 7961.79 7933.34 7898.54 7859.36 7815.67 7762.12 2# 0.16 0.010 0.005 0.04 0.27 0.14 0.09 0.06 0.04 0.05 0.15 -36410# -41500 -42841 -45707.3 -44227 -44256.1 -39611 -37332 -30319 -26349 -16890 -11045 1050# 400# 40 26 0.9 4 1.3 28 18 22 10 50 14 130# 7967# 7990.73 7993.76 8005.087 7992.788 7988.696 7959.20 7942.56 7900.19 7874.37 7818.68 7782.69 7713# 2# 0.22 0.14 0.005 0.024 0.007 0.15 0.10 0.12 0.05 0.27 0.08 1# -38360# -41396 -43389.7 -43822.2 -42809.4 -40336 -36680 -31867 -26176 -19760 -11541 -2210# 200# 14 0.9 1.2 1.3 28 40 26 16 50 16 50# 7974# 7986.37 7992.917 7991.026 7981.323 7963.72 7939.75 7909.49 7874.50 7835.56 7786.93 7732# 1# 0.08 0.005 0.006 0.007 0.15 0.22 0.14 0.08 0.29 0.09 0# Beta-decay energy (keV) β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ 4180# 375 1814.3 * 2800 840 5560 2882 7869 4725 10230 6520 200# 6 1.7 100 100 30 26 26 22 80 80 3760# 2010 1070.9 * 556 2150 3470 4425 5586 6387 7213 9019 300# 30 1.7 5090# 1340 2866 -1481 30 * 4645 2280 7013 3970 9460 5840 12090# 400# 30 26 4 4 3040# 1994 432.5 * 1012.8 2474 3650 4820 5690 6420 8210 9330# 200# 14 0.9 8 50 60 30 19 13 13 30 28 30 29 24 50 50 130# 0.4 28 50 50 30 60 60 60# Atomic mass µu 181 955040# 181 950554 181 950151.8 181 948204.2 181 951210 181 952110 181 958076 181 961171 181 969618 181 974690 181 985670 181 992672 210# 7 1.9 0.9 110 23 23 17 22 10 80 15 182 957570# 182 953530 182 951372.6 182 950223.0 182 950820 182 953130 182 956846 182 961597 182 967593 182 974450 182 982193 182 991870 320# 30 1.9 0.9 9 50 27 17 11 9 10 30 183 960910# 183 955450 183 954008 183 950931.2 183 952521 183 952489.1 183 957480 183 959922 183 967452 183 971713 183 981870 183 988142 184 001120# 430# 40 28 0.9 5 1.4 30 19 24 11 50 15 140# 184 958820# 184 955559 184 953419.3 184 952955.0 184 954042.3 184 956700 184 960620 184 965789 184 971899 184 978790 184 987610 184 997630# 210# 15 1.0 1.3 1.4 30 40 28 17 60 17 60# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 114 113 112 111 110 109 108 107 106 105 104 103 72 73 74 75 76 77 78 79 80 81 82 83 186 Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi x + 115 114 113 112 111 110 109 108 107 106 105 104 72 73 74 75 76 77 78 79 80 81 82 83 187 116 115 114 113 112 111 110 109 108 107 106 105 104 72 73 74 75 76 77 78 79 80 81 82 83 84 188 116 115 114 113 112 111 110 109 108 107 106 105 73 74 75 76 77 78 79 80 81 82 83 84 189 Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po x x x −α −α x x − x x x + -n x x −α −α −α x + +p x +α x −α −α Mass excess (keV) Binding energy per nucleon (keV) -36430# -38610 -42509.5 -41930.2 -42999.5 -39173 -37864 -31715 -28539 -20190 -14681 -3170 300# 60 1.7 1.2 1.4 17 22 21 11 180 11 80 7964# 7971.8 7988.607 7981.286 7982.829 7958.05 7946.81 7909.54 7888.26 7839.2 7805.34 7739.2 2# 0.3 0.009 0.006 0.007 0.09 0.12 0.11 0.06 1.0 0.06 0.4 -32980# -36770# -39904.8 -41215.7 -41218.2 -39716 -36713 -33005 -28118 -22444 -14980 -6373 400# 200# 1.7 1.4 1.4 6 28 25 14 8 8 15 7946# 7963# 7975.120 7977.947 7973.776 7961.56 7941.32 7917.31 7886.99 7852.46 7808.36 7758.15 2# 1# 0.009 0.008 0.008 0.03 0.15 0.13 0.07 0.04 0.04 0.08 -30880# -33810# -38667 -39016.1 -41136.4 -38328 -37823 -32301 -30202 -22350 -17815 -7200 -538 500# 200# 3 1.4 1.4 7 5 20 12 30 11 50 19 7936# 7947# 7969.048 7966.743 7973.860 7954.76 7947.912 7914.38 7899.05 7853.11 7824.84 7764.24 7724.62 3# 1# 0.018 0.008 0.008 0.04 0.029 0.11 0.06 0.17 0.06 0.26 0.10 -31830# -35480 -37978 -38985.4 -38453 -36483 -33582 -29630 -24602 -17880 -10060 -1415 300# 200 8 1.5 13 11 20 30 11 30 50 22 7938# 7952.7 7961.80 7962.995 7956.04 7941.48 7921.99 7896.94 7866.20 7826.48 7780.98 7731.10 2# 1.1 0.04 0.008 0.07 0.06 0.11 0.18 0.06 0.18 0.29 0.12 389 Beta-decay energy (keV) β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ 2180# 3900 -579.3 1069.3 * 3827 1308 6150 3176 8350 5510 11510 3780# 3140# 1310.9 2.469 * 1502 3003 3710 4887 5674 7464 8607 2930# 4850# 349 2120.28 * 2808 505 5522 2099 7860 4530 10610 6670 3650# 2500 1007 * 532 1970 2901 3950 5030 6720 7820 8650 300# 60 1.5 0.9 17 27 30 24 180 180 80 450# 200# 1.3 0.004 6 29 40 29 16 12 17 540# 200# 3 0.19 7 7 21 23 30 30 50 50 360# 200 8 13 14 23 40 40 40 60 60 Atomic mass µu 185 960890# 185 958550 185 954364.1 185 954986.1 185 953838.2 185 957946 185 959351 185 965953 185 969362 185 978330 185 984239 185 996600 320# 60 1.9 1.3 1.5 18 23 23 12 200 12 80 186 964590# 186 960530# 186 957160.5 186 955753.1 186 955750.5 186 957363 186 960590 186 964568 186 969814 186 975906 186 983918 186 993158 430# 210# 1.9 1.5 1.5 7 30 27 15 9 9 16 187 966850# 187 963700# 187 958489 187 958114.4 187 955838.2 187 958853 187 959395 187 965324 187 967577 187 976010 187 980874 187 992270 187 999422 540# 210# 4 1.5 1.5 8 6 22 12 40 11 50 21 188 965830# 188 961910 188 959229 188 958147.5 188 958719 188 960834 188 963948 188 968190 188 973588 188 980810 188 989200 188 998481 320# 210 9 1.6 14 12 22 40 12 40 60 24 390 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 117 116 115 114 113 112 111 110 109 108 107 106 73 74 75 76 77 78 79 80 81 82 83 84 190 Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po x + + 117 116 115 114 113 112 111 110 109 108 107 74 75 76 77 78 79 80 81 82 83 84 191 118 117 116 115 114 113 112 111 110 109 108 74 75 76 77 78 79 80 81 82 83 84 192 118 117 116 115 114 113 112 111 110 109 108 75 76 77 78 79 80 81 82 83 84 85 193 119 118 117 116 115 114 113 112 111 110 109 75 76 77 78 79 80 81 82 83 84 85 194 W Re Os Ir Pt Au Hg Tl Pb Bi Po W Re Os Ir Pt Au Hg Tl Pb Bi Po Re Os Ir Pt Au Hg Tl Pb Bi Po At Re Os Ir Pt Au Hg Tl Pb Bi Po At +n − +α −α −α −α x +p +α x x x − x x −α −α −α x x x x −α −α x + -n x x −α −α Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) -28660# -34300 -35570 -38706.3 -36751.2 -37323 -32881 -31370 -24330 -20417 -10900 -4563 400# 160 150 1.5 1.7 6 16 16 50 12 180 13 7922# 7947.1 7949.7 7962.096 7947.688 7946.58 7919.09 7907.02 7865.86 7841.13 7786.9 7749.45 2# 0.9 0.8 0.008 0.009 0.03 0.08 0.08 0.26 0.06 1.0 0.07 β− β− β− β− β− -31110# -34349 -36393.7 -36706.4 -35698 -33810 -30593 -26281 -20250 -13240 -5054 200# 10 1.5 1.7 4 40 23 8 40 7 11 7931# 7943.95 7950.560 7948.101 7938.725 7924.74 7903.81 7877.13 7841.44 7800.66 7753.71 1# 0.05 0.008 0.009 0.023 0.19 0.12 0.04 0.20 0.04 0.06 β− β− β− -29650# -31710# -35880.5 -34833.2 -36292.9 -32777 -32011 -25870 -22556 -13550 -8071 600# 200# 2.6 1.7 2.5 16 16 30 13 30 12 7924# 7931# 7948.516 7938.986 7942.514 7920.13 7912.07 7876.02 7854.67 7803.67 7771.08 3# 1# 0.013 0.009 0.013 0.08 0.08 0.16 0.07 0.17 0.06 -30300# -33392.6 -34533.8 -34477.0 -33394 -31051 -27320 -22190 -15873 -8360 -150 200# 2.6 1.7 1.7 11 15 110 50 10 30 50 7924# 7936.261 7938.121 7933.773 7924.11 7907.91 7884.5 7853.92 7817.11 7774.13 7727.52 1# 0.013 0.009 0.009 0.06 0.08 0.6 0.26 0.05 0.18 0.28 -27550# -32432.7 -32529.3 -34763.1 -32262 -32193 -26830 -24208 -15990 -11005 -1190 300# 2.6 1.7 0.9 10 13 140 17 50 13 190 7911# 7932.010 7928.475 7935.957 7919.03 7914.64 7883.0 7865.42 7819.02 7789.30 7734.7 2# 0.013 0.009 0.005 0.05 0.06 0.7 0.09 0.25 0.06 1.0 β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β+ 5630# 1270 3140 -1955.1 572 * 4442 1511 7040 3920 9510 6340 430# 70 150 1.2 6 3240# 2045 312.7 * 1008 1890 3220 4312 6040 7010 8186 200# 10 1.1 2060# 4170# -1047.3 1459.7 * 3516 765 6140 3320 9010 5470 630# 200# 2.3 1.9 15 23 50 50 180 180 4 40 40 24 40 40 13 16 22 40 30 40 40 3090# 1141.2 * 56.79 1083 2343 3730 5120 6320 7510 8210 200# 2.3 4880# 96.6 2233.8 * 2501 69 5370 2620 8220 4990 9820 300# 2.0 1.7 0.30 11 14 110 120 50 40 60 10 14 140 140 50 50 190 Atomic mass µu 189 969230# 189 963180 189 961820 189 958447.0 189 960546.0 189 959932 189 964700 189 966322 189 973880 189 978082 189 988300 189 995101 430# 180 160 1.6 1.8 6 17 17 50 13 200 14 190 966600# 190 963125 190 960929.7 190 960594.0 190 961677 190 963700 190 967157 190 971786 190 978270 190 985786 190 994574 210# 11 1.6 1.8 5 40 24 8 40 8 12 191 968170# 191 965960# 191 961480.7 191 962605.0 191 961038.0 191 964813 191 965634 191 972230 191 975785 191 985460 191 991335 640# 210# 2.7 1.8 2.7 17 17 30 14 40 13 192 967470# 192 964151.6 192 962926.4 192 962987.4 192 964150 192 966665 192 970670 192 976170 192 982960 192 991030 192 999840 210# 2.7 1.8 1.8 11 17 120 50 10 40 60 193 970420# 193 965182.1 193 965078.4 193 962680.3 193 965365 193 965439 193 971200 193 974012 193 982830 193 988186 193 998730 320# 2.8 1.8 0.9 11 13 150 19 50 13 200 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 119 118 117 116 115 114 113 112 111 110 109 76 77 78 79 80 81 82 83 84 85 86 195 Os Ir Pt Au Hg Tl Pb Bi Po At Rn + -n 120 119 118 117 116 115 114 113 112 111 110 76 77 78 79 80 81 82 83 84 85 86 196 120 119 118 117 116 115 114 113 112 111 77 78 79 80 81 82 83 84 85 86 197 121 120 119 118 117 116 115 114 113 112 77 78 79 80 81 82 83 84 85 86 198 122 121 120 119 118 117 116 115 114 113 112 77 78 79 80 81 82 83 84 85 86 87 199 +α x x −α −α −α Os Ir Pt Au Hg Tl Pb Bi Po At Rn +pp + Ir Pt Au Hg Tl Pb Bi Po At Rn +p Ir Pt Au Hg Tl Pb Bi Po At Rn Ir Pt Au Hg Tl Pb Bi Po At Rn Fr x x x −α −α −α +α IT +α −α −α −α x -n − x x −α −α p−2n -n x +α +α −α −α −α −α Mass excess (keV) Binding energy per nucleon (keV) -29690 -31689.8 -32796.8 -32570.0 -31000 -28155 -23714 -18024 -11070 -3476 5070 500 1.7 0.9 1.3 23 14 23 6 40 9 50 7918.7 7924.902 7926.567 7921.392 7909.33 7890.73 7863.94 7830.748 7791.10 7748.12 7700.31 2.6 0.009 0.005 0.007 0.12 0.07 0.12 0.029 0.20 0.05 0.26 -28280 -29440 -32647.4 -31140.0 -31826.7 -27497 -25361 -18009 -13474 -3920 1970 40 40 0.9 3.0 2.9 12 14 24 13 60 15 7912.25 7914.16 7926.544 7914.861 7914.373 7888.29 7873.40 7831.90 7804.77 7752.1 7717.99 0.20 0.20 0.004 0.015 0.015 0.06 0.07 0.12 0.07 0.3 0.08 -28268 -30422.4 -31141.1 -30541 -28341 -24749 -19688 -13360 -6340 1480 20 0.8 0.6 3 16 6 8 50 50 60 7909.02 7915.984 7915.661 7908.643 7893.51 7871.298 7841.64 7805.53 7765.96 7722.3 0.10 0.004 0.003 0.016 0.08 0.028 0.04 0.25 0.26 0.3 -25820# -29908 -29582.1 -30954.4 -27490 -26050 -19369 -15473 -6670 -1231 200# 3 0.6 0.3 80 15 28 17 50 13 7897# 7914.169 7908.573 7911.553 7890.1 7878.88 7841.19 7817.56 7769.16 7737.73 1# 0.016 0.003 0.002 0.4 0.07 0.14 0.09 0.25 0.07 -24400 -27392 -29095.0 -29547.1 -28059 -25228 -20798 -15215 -8820 -1520 6760 40 3 0.6 0.4 28 26 12 23 50 60 40 7891.22 7902.319 7906.943 7905.284 7893.88 7875.72 7849.53 7817.54 7781.47 7740.8 7695.31 0.21 0.016 0.003 0.002 0.14 0.13 0.06 0.12 0.25 0.3 0.21 391 Beta-decay energy (keV) β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β+ 2000 1107.0 * 226.8 1570 2845 4441 5690 6950 7600 8540 500 1.7 1160 3210 -1507.4 687 * 4330 2136 7352 4535 9550 5890 60 40 3.0 3 2155 718.7 * 600 2200 3592 5061 6330 7010 7820 20 0.6 4090# -326 1372.3 * 3460 1440 6680 3900 8800 5440 200# 3 0.5 2990 1703 452.0 * 1488 2830 4430 5583 6400 7300 8280 40 3 0.6 1.0 23 27 27 24 40 40 50 12 19 28 28 60 60 3 17 17 10 50 70 80 80 80 30 30 50 50 28 40 29 26 60 80 80 Atomic mass µu 194 968130 194 965979.6 194 964791.1 194 965034.6 194 966720 194 969774 194 974542 194 980651 194 988110 194 996268 195 005440 540 1.8 0.9 1.4 25 15 25 6 40 10 50 195 969640 195 968400 195 964951.5 195 966570 195 965833 195 970481 195 972774 195 980667 195 985535 195 995790 196 002115 40 40 0.9 3 3 13 15 26 14 60 16 196 969653 196 967340.2 196 966568.7 196 967213 196 969575 196 973431 196 978864 196 985660 196 993190 197 001580 22 0.9 0.6 3 18 6 9 50 50 70 197 972280# 197 967893 197 968242.3 197 966769.0 197 970480 197 972034 197 979210 197 983389 197 992840 197 998679 210# 3 0.6 0.4 90 16 30 19 50 14 198 973800 198 970593 198 968765.2 198 968279.9 198 969880 198 972917 198 977672 198 983666 198 990530 198 998370 199 007260 40 3 0.6 0.4 30 28 13 25 50 70 40 392 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 122 121 120 119 118 117 116 115 114 113 78 79 80 81 82 83 84 85 86 87 200 Pt Au Hg Tl Pb Bi Po At Rn Fr -nn + 123 122 121 120 119 118 117 116 115 114 78 79 80 81 82 83 84 85 86 87 201 124 123 122 121 120 119 118 117 116 115 114 78 79 80 81 82 83 84 85 86 87 88 202 124 123 122 121 120 119 118 117 116 115 79 80 81 82 83 84 85 86 87 88 203 125 124 123 122 121 120 119 118 117 116 79 80 81 82 83 84 85 86 87 88 204 Pt Au Hg Tl Pb Bi Po At Rn Fr Pt Au Hg Tl Pb Bi Po At Rn Fr Ra Au Hg Tl Pb Bi Po At Rn Fr Ra Au Hg Tl Pb Bi Po At Rn Fr Ra − 4n +α −α −α −α −α + +nn +α +α −α +α −α −α x + x −α −α −α −α −α x −α x −α + +α −α −α −α −α Mass excess (keV) Binding energy per nucleon (keV) -26603 -27270 -29504.1 -27048 -26243 -20370 -16954 -8988 -4006 6120 20 50 0.4 6 11 24 14 24 13 80 7899.22 7898.63 7905.899 7889.707 7881.77 7848.49 7827.50 7783.76 7754.94 7700.4 0.10 0.25 0.002 0.029 0.05 0.12 0.07 0.12 0.07 0.4 -23740 -26401 -27663.3 -27182 -25258 -21416 -16525 -10789 -4070 3600 50 3 0.6 15 22 15 6 8 70 70 7885.83 7895.176 7897.564 7891.28 7877.81 7854.81 7826.580 7794.15 7756.8 7714.8 0.25 0.016 0.003 0.07 0.11 0.08 0.029 0.04 0.4 0.4 -22600# -24400 -27345.9 -25983 -25934 -20733 -17924 -10591 -6275 3140 9210 300# 170 0.6 15 8 20 15 28 18 50 60 7881# 7886.1 7896.852 7886.23 7882.12 7852.50 7834.72 7794.54 7769.30 7718.81 7684.9 1# 0.8 0.003 0.07 0.04 0.10 0.07 0.14 0.09 0.25 0.3 -23143 -25269.1 -25761.2 -24787 -21540 -17307 -12163 -6160 861 8640 3 1.7 1.3 7 22 26 12 24 16 80 7880.864 7887.482 7886.052 7877.40 7857.55 7832.84 7803.65 7770.23 7731.78 7689.6 0.015 0.008 0.006 0.03 0.11 0.13 0.06 0.12 0.08 0.4 -20750# -24690.2 -24346.0 -25109.7 -20667 -18334 -11875 -7984 608 6054 200# 0.3 1.3 1.2 26 11 24 15 25 15 7870# 7885.545 7880.022 7879.931 7854.32 7839.04 7803.55 7780.64 7734.69 7704.16 1# 0.002 0.006 0.006 0.13 0.05 0.12 0.07 0.12 0.08 Beta-decay energy (keV) β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ 670 2240 * 2456 805 5873 3416 7967 4982 10130 50 50 2660 1262 * 481 1924 3842 4891 5735 6720 7670 50 3 6 12 26 28 28 28 80 15 27 27 16 10 70 100 1800# 2950 * 1363 50 5201 2809 7330 4320 9420 6070 340# 170 2126 492.1 * 975 3247 4230 5144 6003 7022 7780 3 1.2 3940# -344.3 763.76 * 4442 2334 6458 3891 8593 5446 15 15 22 25 30 30 50 80 6 22 30 29 26 28 80 200# 1.3 0.18 26 28 26 28 29 29 Atomic mass µu 199 971441 199 970730 199 968326.0 199 970963 199 971827 199 978132 199 981799 199 990351 199 995699 200 006570 22 50 0.4 6 12 26 15 26 14 80 200 974510 200 971657 200 970302.3 200 970819 200 972885 200 977009 200 982260 200 988417 200 995630 201 003860 50 3 0.6 16 24 16 6 9 80 80 201 975740# 201 973810 201 970643.0 201 972106 201 972159 201 977742 201 980758 201 988630 201 993263 202 003370 202 009890 320# 180 0.6 16 9 22 16 30 19 50 70 202 975155 202 972872.5 202 972344.2 202 973391 202 976876 202 981420 202 986942 202 993387 203 000925 203 009270 3 1.8 1.4 7 23 28 13 25 17 90 203 977720# 203 973493.9 203 973863.5 203 973043.6 203 977813 203 980318 203 987251 203 991429 204 000653 204 006500 220# 0.4 1.3 1.3 28 12 26 16 26 17 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 126 125 124 123 122 121 120 119 118 117 79 80 81 82 83 84 85 86 87 88 205 Au Hg Tl Pb Bi Po At Rn Fr Ra x 126 125 124 123 122 121 120 119 118 117 80 81 82 83 84 85 86 87 88 89 206 127 126 125 124 123 122 121 120 119 118 80 81 82 83 84 85 86 87 88 89 207 128 127 126 125 124 123 122 121 120 119 80 81 82 83 84 85 86 87 88 89 208 129 128 127 126 125 124 123 122 121 120 119 80 81 82 83 84 85 86 87 88 89 90 209 Hg Tl Pb Bi Po At Rn Fr Ra Ac Hg Tl Pb Bi Po At Rn Fr Ra Ac Hg Tl Pb Bi Po At Rn Fr Ra Ac Hg Tl Pb Bi Po At Rn Fr Ra Ac Th x +α −α x −α +α − −α −α −α −α −α −α + −α −α −α x +α +n −α +α −α −α −α x +α −α −α −α −α −α Mass excess (keV) Binding energy per nucleon (keV) -18750# -22287 -23820.6 -23770.1 -21062 -17509 -12972 -7710 -1310 5840 300# 4 1.3 1.2 7 20 15 50 8 90 7861# 7874.731 7878.393 7874.330 7857.30 7836.16 7810.21 7780.74 7745.69 7707.0 1# 0.018 0.006 0.006 0.04 0.10 0.07 0.25 0.04 0.4 -20946 -22253.1 -23785.4 -20028 -18182 -12420 -9116 -1243 3565 13510 20 1.4 1.2 8 8 20 15 28 18 70 7869.17 7871.720 7875.361 7853.32 7840.56 7808.79 7788.96 7746.94 7719.80 7667.7 0.10 0.007 0.006 0.04 0.04 0.10 0.07 0.14 0.09 0.3 -16220 -21034 -22451.9 -20054.4 -17146 -13243 -8631 -2840 3540 11130 150 5 1.2 2.4 7 21 26 50 60 50 7847.3 7866.793 7869.865 7854.504 7836.67 7814.04 7787.98 7756.23 7721.63 7681.17 0.7 0.027 0.006 0.012 0.03 0.10 0.13 0.24 0.27 0.25 -13100# -16749.5 -21748.5 -18870.0 -17469.5 -12491 -9648 -2670 1714 10760 300# 2.0 1.2 2.4 1.8 26 11 50 15 60 7833# 7847.180 7867.452 7849.852 7839.357 7811.66 7794.23 7756.90 7732.08 7684.83 1# 0.010 0.006 0.011 0.009 0.12 0.05 0.22 0.07 0.27 -8350# -13638 -17614.4 -18258.5 -16365.9 -12880 -8929 -3769 1850 8840 16500 200# 8 1.8 1.4 1.8 7 20 15 50 50 100 7812# 7833.36 7848.647 7847.985 7835.187 7814.76 7792.12 7763.69 7733.03 7695.85 7655.5 1# 0.04 0.009 0.007 0.009 0.04 0.10 0.07 0.24 0.24 0.5 Beta-decay energy (keV) β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β+ 3540# 1533 * 50.5 2708 3553 4537 5260 6400 7150 300# 4 1308 1532.3 * 3758 1846 5762 3304 7870 4810 9950 20 0.6 0.5 7 21 25 50 50 90 8 11 22 25 30 30 70 4820 1418 * 2397.5 2909 3903 4610 5790 6380 7590 150 5 3650# 4999.0 * 2878.4 1400.5 4978 2843 6980 4380 9050 300# 1.7 5290# 3976 644.0 * 1892.5 3486 3951 5159 5620 6990 7660 200# 8 1.1 2.1 7 22 30 60 80 80 2.0 2.4 26 28 50 50 60 1.6 7 21 25 50 70 110 393 Atomic mass µu 204 979870# 204 976073 204 974427.5 204 974481.8 204 977389 204 981203 204 986074 204 991720 204 998594 205 006270 320# 4 1.4 1.3 8 21 16 50 8 90 205 977514 205 976110.3 205 974465.3 205 978499 205 980481 205 986667 205 990214 205 998670 206 003827 206 014500 22 1.5 1.3 8 9 22 16 30 19 80 206 982590 206 977419 206 975896.9 206 978470.7 206 981593 206 985784 206 990734 206 996950 207 003800 207 011950 160 6 1.3 2.6 7 23 28 50 60 60 207 985940# 207 982018.7 207 976652.1 207 979742.2 207 981245.7 207 986590 207 989642 207 997140 208 001840 208 011550 320# 2.1 1.3 2.5 1.9 28 12 50 17 60 208 991040# 208 985359 208 981090.1 208 980398.7 208 982430.4 208 986173 208 990415 208 995954 209 001990 209 009490 209 017720 210# 8 1.9 1.6 2.0 8 21 16 50 50 110 394 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 130 129 128 127 126 125 124 123 122 121 120 80 81 82 83 84 85 86 87 88 89 90 210 Hg Tl Pb Bi Po At Rn Fr Ra Ac Th x +α 130 129 128 127 126 125 124 123 122 121 81 82 83 84 85 86 87 88 89 90 211 131 130 129 128 127 126 125 124 123 122 121 81 82 83 84 85 86 87 88 89 90 91 212 131 130 129 128 127 126 125 124 123 122 82 83 84 85 86 87 88 89 90 91 213 132 131 130 129 128 127 126 125 124 123 82 83 84 85 86 87 88 89 90 91 214 Tl Pb Bi Po At Rn Fr Ra Ac Th Tl Pb Bi Po At Rn Fr Ra Ac Th Pa Pb Bi Po At Rn Fr Ra Ac Th Pa Pb Bi Po At Rn Fr Ra Ac Th Pa Mass excess (keV) Binding energy per nucleon (keV) -5110# -9246 -14728.3 -14791.8 -15953.1 -11972 -9598 -3346 461 8790 14043 300# 12 1.5 1.4 1.2 8 9 22 15 60 25 7798# 7813.58 7835.964 7832.541 7834.345 7811.66 7796.63 7763.14 7741.28 7697.90 7669.16 1# 0.06 0.007 0.007 0.006 0.04 0.04 0.11 0.07 0.27 0.12 -6080# -10491.4 -11858 -12432.5 -11647.1 -8756 -4158 836 7200 13910 200# 2.7 6 1.3 2.8 7 21 26 70 70 7800# 7817.000 7819.770 7818.783 7811.354 7793.94 7768.44 7741.07 7707.2 7671.7 1# 0.013 0.026 0.006 0.013 0.03 0.10 0.12 0.3 0.4 -1650# -7547.4 -8117.3 -10369.4 -8621 -8660 -3538 -191 7280 12091 21610 300# 2.2 2.0 1.2 7 3 26 11 70 18 70 7780# 7804.312 7803.310 7810.243 7798.31 7794.797 7766.95 7747.47 7708.5 7682.16 7633.5 1# 0.010 0.009 0.006 0.03 0.015 0.12 0.05 0.3 0.09 0.4 −α −α −α −α -3184 -5231 -6653 -6579 -5698 -3550 358 6150 12120 19660 8 5 3 5 6 8 20 50 70 70 7785.08 7791.016 7794.023 7790.003 7782.192 7768.43 7746.41 7715.52 7683.9 7644.8 0.04 0.023 0.015 0.023 0.027 0.04 0.10 0.24 0.3 0.3 −α −α −α −α −α −α −α -181.3 -1200 -4469.9 -3380 -4320 -958 101 6429 10712 19490 2.4 11 1.5 4 9 9 9 22 17 80 7772.386 7773.49 7785.115 7776.365 7777.10 7757.74 7749.13 7715.91 7692.24 7647.6 0.011 0.05 0.007 0.020 0.04 0.04 0.04 0.11 0.08 0.4 −α −α −α −α −α +α −α −α −α −α −α −α +α −α −α −α −α −α −α +α −α −α Beta-decay energy (keV) β− β− β− β− β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β− β− β− β− β− β+ β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β+ 4130# 5482 63.5 1161.3 * 3981 2374 6252 3807 8330 5250 300# 12 0.5 0.8 4420# 1367 574 * 785.4 2892 4598 4990 6370 6700 200# 6 5 5900# 569.9 2252.1 -1748 38 * 5122 3346 7470 4810 9520 300# 1.9 1.7 7 8 2046 1423 * 74 881 2148 3908 5800 5960 7540 9 5 1019 3270 -1090 940 * 3361 1059 6328 4283 8770 8 12 24 27 60 60 2.5 7 22 30 80 100 26 28 70 70 80 5 7 9 22 60 90 100 11 11 4 10 13 13 24 28 80 Atomic mass µu 209 994510# 209 990074 209 984188.5 209 984120.4 209 982873.7 209 987148 209 989696 209 996408 210 000495 210 009440 210 015075 320# 12 1.6 1.6 1.3 8 9 24 16 60 27 210 993480# 210 988737.0 210 987269 210 986653.2 210 987496.3 210 990601 210 995537 211 000898 211 007730 211 014930 220# 2.9 6 1.4 3.0 7 23 28 80 80 211 998230# 211 991897.5 211 991285.7 211 988868.0 211 990745 211 990704 211 996202 211 999794 212 007810 212 012980 212 023200 320# 2.4 2.1 1.3 8 3 28 12 70 20 80 212 996581 212 994385 212 992857 212 992937 212 993883 212 996189 213 000384 213 006610 213 013010 213 021110 8 5 3 5 6 8 22 60 80 80 213 999805.4 213 998712 213 995201.4 213 996372 213 995363 213 998971 214 000108 214 006902 214 011500 214 020920 2.6 12 1.6 5 10 9 10 24 18 80 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 133 132 131 130 129 128 127 126 125 124 82 83 84 85 86 87 88 89 90 91 215 Pb Bi Po At Rn Fr Ra Ac Th Pa +α x 133 132 131 130 129 128 127 126 125 83 84 85 86 87 88 89 90 91 216 134 133 132 131 130 129 128 127 126 125 83 84 85 86 87 88 89 90 91 92 217 135 134 133 132 131 130 129 128 127 126 83 84 85 86 87 88 89 90 91 92 218 135 134 133 132 131 130 129 128 127 84 85 86 87 88 89 90 91 92 219 136 135 134 133 132 131 130 129 128 84 85 86 87 88 89 90 91 92 220 Bi Po At Rn Fr Ra Ac Th Pa Bi Po At Rn Fr Ra Ac Th Pa U Bi Po At Rn Fr Ra Ac Th Pa U Po At Rn Fr Ra Ac Th Pa U Po At Rn Fr Ra Ac Th Pa U −α −α −α −α −α −α −α x −α −α −α −α −α −α x +α −α −α −α −α −α −α −α +α −α −α −α −α −α −α −α +α +α −α −α −α −α −α −α +α −α −α −α −α −α −α Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) β− β− β− 4480# 1649 -540.3 -1255 -1169 318 2534 6012 10927 17870 410# 15 2.5 7 8 7 8 21 27 90 7752# 7761.63 7768.169 7767.86 7763.81 7753.26 7739.32 7719.50 7693.00 7657.1 2# 0.07 0.012 0.03 0.04 0.03 0.04 0.10 0.13 0.4 5874 1783.8 2257 256 2979 3291 8123 10304 17800 11 2.2 4 7 14 9 27 13 70 7743.50 7758.813 7752.999 7758.64 7742.41 7737.35 7711.36 7697.63 7659.3 0.05 0.010 0.017 0.03 0.07 0.04 0.12 0.06 0.3 8820# 5901 4396 3659 4315 5887 8707 12216 17070 22700 200# 7 5 4 7 9 13 21 50 90 7731# 7741.28 7744.612 7744.403 7737.77 7726.92 7710.32 7690.55 7664.58 7635.0 1# 0.03 0.023 0.019 0.03 0.04 0.06 0.10 0.24 0.4 13340# 8358.3 8099 5217.5 7059 6651 10840 12374 18669 21920 360# 2.4 12 2.4 5 11 50 13 25 30 7712# 7731.521 7729.12 7738.751 7726.715 7725.00 7702.18 7691.57 7659.10 7640.59 2# 0.011 0.05 0.011 0.022 0.05 0.23 0.06 0.11 0.14 β− β− β− β− β− 12800# 10397 8830.8 8618 9394 11570 14470 18520 23210 360# 4 2.5 7 8 50 50 50 60 7713# 7720.191 7723.771 7721.17 7714.05 7700.55 7683.72 7661.66 7636.67 2# 0.018 0.012 0.03 0.04 0.23 0.23 0.25 0.26 β− β− β− 15470# 14350 10613.4 11483 10273 13752 14669 20380 23030# 360# 50 2.2 4 9 15 22 60 200# 7702# 7703.81 7717.248 7709.740 7711.68 7692.31 7684.59 7655.09 7639# 2# 0.23 0.010 0.019 0.04 0.07 0.10 0.26 1# β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ 2830# 2189 715 * 87 1487 2215 3478 4920 6940 410# 15 7 4090 -473 2002 * 2723 312 4832 2182 7500 11 4 8 10 10 10 22 30 90 16 17 28 30 70 2920# 1505 737 * 656 1573 2819 3509 4850 5630 200# 8 6 4980# 260 2881 -1842 408 * 4190 1530 6294 3250 360# 12 12 5 12 2410# 1566 212 * 776 2180 2900 4050 4690 360# 3 7 1110# 3740 -869 1210 * 3479 917 5710 2650# 360# 50 4 10 8 11 15 24 60 100 50 50 28 40 11 50 70 70 80 17 27 60 210# 395 Atomic mass µu 215 004810# 215 001770 214 999420.0 214 998653 214 998745 215 000341 215 002720 215 006454 215 011730 215 019190 440# 16 2.7 7 8 8 8 23 29 90 216 006306 216 001915.0 216 002423 216 000274 216 003198 216 003533 216 008720 216 011062 216 019110 12 2.4 4 8 15 9 29 14 80 217 009470# 217 006335 217 004719 217 003928 217 004632 217 006320 217 009347 217 013114 217 018320 217 024370 210# 7 5 5 7 9 14 22 60 90 218 014320# 218 008973.0 218 008694 218 005601.3 218 007578 218 007140 218 011640 218 013284 218 020042 218 023540 390# 2.6 12 2.5 5 12 50 14 26 30 219 013740# 219 011162 219 009480.2 219 009252 219 010085 219 012420 219 015540 219 019880 219 024920 390# 4 2.7 8 9 50 50 60 60 220 016600# 220 015410 220 011394.0 220 012327 220 011028 220 014763 220 015748 220 021880 220 024720# 390# 60 2.4 4 10 16 24 60 220# 396 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 136 135 134 133 132 131 130 129 85 86 87 88 89 90 91 92 221 At Rn Fr Ra Ac Th Pa U x +α 137 136 135 134 133 132 131 130 85 86 87 88 89 90 91 92 222 138 137 136 135 134 133 132 131 85 86 87 88 89 90 91 92 223 138 137 136 135 134 133 132 86 87 88 89 90 91 92 224 139 138 137 136 135 134 133 132 86 87 88 89 90 91 92 93 225 140 139 138 137 136 135 134 133 86 87 88 89 90 91 92 93 226 141 140 139 138 137 136 135 134 86 87 88 89 90 91 92 93 227 At Rn Fr Ra Ac Th Pa U −α −α −α −α −α x −α −α −α −α At Rn Fr Ra Ac Th Pa U x x +α Rn Fr Ra Ac Th Pa U x + Rn Fr Ra Ac Th Pa U Np Rn Fr Ra Ac Th Pa U Np Rn Fr Ra Ac Th Pa U Np −α −α −α −α −α −α −α −α x + −α −α −α −α x + −α −α −α +α + -n −α −α −α Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) β− β− β− 16810# 14472 13278 12964 14520 16938 20380 24590# 200# 6 5 5 50 9 50 100# 7694# 7701.388 7703.252 7701.134 7690.54 7676.07 7656.96 7634# 1# 0.027 0.022 0.021 0.23 0.04 0.23 0# 20800# 16373.6 16349 14321 16621 17203 22120# 24300# 300# 2.4 21 5 5 12 70# 100# 7678# 7694.491 7691.08 7696.687 7682.802 7676.66 7651# 7638# 1# 0.011 0.10 0.021 0.023 0.06 0# 0# β− β− β− 23460# 20300# 18383.8 17234.7 17826 19386 22320 25840 400# 300# 2.4 2.5 7 9 70 70 7668# 7679# 7683.658 7685.303 7679.14 7668.64 7652.0 7632.7 2# 1# 0.011 0.011 0.03 0.04 0.3 0.3 β− β− β− 22440# 21660 18827.2 20235 19996 23870 25714 300# 50 2.2 4 11 16 25 7671# 7670.78 7679.917 7670.140 7667.71 7646.93 7635.20 1# 0.22 0.010 0.019 0.05 0.07 0.11 26490# 23810 21994.0 21638 22310 24340 27377 31590 300# 30 3.0 5 5 70 12 70 7655# 7662.97 7667.581 7665.686 7659.222 7646.7 7629.75 7607.5 1# 0.13 0.013 0.021 0.023 0.3 0.05 0.3 28770# 27370 23669.1 24310 23197 26033 27329 32740# 400# 100 2.3 3 5 11 13 90# 7646# 7649.0 7661.956 7655.658 7657.121 7641.11 7631.92 7605# 2# 0.4 0.010 0.015 0.021 0.05 0.06 0# β− β− β− β− 32980# 29650 27179.0 25850.9 25806.2 26832 29022 32560 420# 100 2.4 2.4 2.5 7 17 70 7630# 7640.8 7648.297 7650.701 7647.452 7639.49 7626.39 7607.4 2# 0.4 0.010 0.011 0.011 0.03 0.07 0.3 β− β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β− β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 2340# 1194 314 * 1560 2410 3440 4210# 200# 7 6 4430# 24 2028 * 2300 582 4910# 2180# 300# 21 22 3170# 1910# 1149.2 * 592 1559 2930 3520 500# 300# 0.8 50 50 50 110# 7 13 70# 120# 7 12 70 100 780# 2830 -1408 238 * 3874 1843 300# 50 4 12 2680# 1820 356 * 672 2030 3040 4210 300# 30 5 1400# 3700 -641 1113 * 2836 1296 5410# 410# 100 3 5 3330# 2480 1328.0 44.8 * 1026 2190 3540 440# 100 2.3 0.8 19 30 7 70 70 70 12 17 90# 7 18 70 Atomic mass µu 221 018050# 221 015537 221 014255 221 013917 221 015590 221 018184 221 021880 221 026400# 210# 6 5 5 50 10 60 110# 222 022330# 222 017577.7 222 017552 222 015375 222 017844 222 018468 222 023740# 222 026090# 320# 2.5 23 5 6 13 80# 110# 223 025190# 223 021790# 223 019735.9 223 018502.2 223 019137 223 020811 223 023960 223 027740 430# 320# 2.6 2.7 8 10 80 80 224 024090# 224 023250 224 020211.8 224 021723 224 021467 224 025626 224 027605 320# 50 2.4 4 12 17 27 225 028440# 225 025570 225 023612 225 023230 225 023951 225 026130 225 029391 225 033910 320# 30 3 5 5 80 12 80 226 030890# 226 029390 226 025409.8 226 026098 226 024903 226 027948 226 029339 226 035150# 430# 110 2.5 4 5 12 14 100# 227 035410# 227 031840 227 029177.8 227 027752.1 227 027704.1 227 028805 227 031156 227 034960 450# 110 2.5 2.6 2.7 8 18 80 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 142 141 140 139 138 137 136 135 134 86 87 88 89 90 91 92 93 94 228 Rn Fr Ra Ac Th Pa U Np Pu +α + +α − 142 141 140 139 138 137 136 135 87 88 89 90 91 92 93 94 229 Fr Ra Ac Th Pa U Np Pu x 143 142 141 140 139 138 137 136 87 88 89 90 91 92 93 94 230 144 143 142 141 140 139 138 137 136 87 88 89 90 91 92 93 94 95 231 145 144 143 142 141 140 139 138 137 87 88 89 90 91 92 93 94 95 232 145 144 143 142 141 140 139 138 137 88 89 90 91 92 93 94 95 96 233 Fr Ra Ac Th Pa U Np Pu Fr Ra Ac Th Pa U Np Pu Am −α −α x −α −α −α −α +α x − −α −α −α +α x + −α −α −α x Fr Ra Ac Th Pa U Np Pu Am +α +α + Ra Ac Th Pa U Np Pu Am Cm +α x + −α − −α x −α −α −α −α Mass excess (keV) Binding energy per nucleon (keV) 397 Beta-decay energy (keV) β− β− β− β− 35380# 33280# 28941.8 28896.0 26772.2 28924 29225 33700# 36090 410# 200# 2.4 2.5 2.2 4 15 200# 30 7621# 7627# 7642.421 7639.191 7645.074 7632.204 7627.45 7604# 7590.49 2# 1# 0.011 0.011 0.010 0.019 0.07 1# 0.14 35820 32563 30750 29586.5 29898.0 31211 33780 37400 40 19 30 2.8 2.7 6 90 50 7617.69 7628.48 7632.97 7634.646 7629.869 7620.721 7606.1 7586.86 0.16 0.08 0.15 0.012 0.012 0.026 0.4 0.22 39600# 34518 33810 30864.0 32175 31615 35240 36934 450# 12 300 1.8 3 5 50 15 7603# 7621.91 7621.6 7630.990 7621.891 7620.923 7601.78 7590.99 2# 0.05 1.3 0.008 0.014 0.021 0.22 0.07 β− β− β− β− β− 42330# 38400# 35920 33817.3 33425.7 33807 35630 38285 42440# 470# 300# 100 1.8 2.3 3 50 26 300# 7593# 7607# 7614.4 7620.112 7618.420 7613.381 7602.13 7587.22 7566# 2# 1# 0.4 0.008 0.010 0.013 0.22 0.11 1# β− β− β− β− 46360# 40650# 39150 35448.3 35948 34610.7 37360# 38366 43400# 640# 280# 100 2.0 8 2.2 100# 18 300# 7578# 7599# 7602.5 7615.026 7609.50 7611.892 7597# 7588.96 7564# 3# 1# 0.4 0.009 0.03 0.010 0# 0.08 1# β− β− β− β− β− 44770# 41500# 38733.2 37490.1 36920.0 37950 40050 43170# 47290 470# 300# 2.0 2.2 2.7 50 50 100# 70 7584# 7594# 7602.886 7604.864 7603.953 7596.18 7583.80 7567# 7546.0 2# 1# 0.009 0.009 0.012 0.22 0.22 0# 0.3 β− β− β− β− β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 2100# 4340# 45.8 2123.8 * 2152 301 4480# 2390# 3250 1810 1170 * 311 1313 2570 3620 460# 200# 0.7 2.7 4 16 200# 200# 40 30 30 3 6 90 100 5080# 710 2940 -1310.5 560 * 3620 1700 450# 300 300 2.8 5 3930# 2480# 2100 391.6 * 381.6 1820 2660 4150# 550# 310# 100 1.5 5710# 1500# 3700 -500 1337 * 2750# 1010# 5030# 700# 300# 100 8 7 3270# 2770# 1243.1 570.1 * 1030 2100 3120# 4120# 50 50 2.0 50 60 300# 100# 100# 300# 560# 300# 1.4 2.0 50 70 110# 120# Atomic mass µu 228 037990# 228 035730# 228 031070.3 228 031021.1 228 028741.1 228 031051 228 031374 228 036180# 228 038740 440# 220# 2.6 2.7 2.4 5 16 210# 30 229 038450 229 034958 229 033020 229 031762 229 032096.8 229 033506 229 036260 229 040150 40 20 40 3 3.0 6 90 60 230 042510# 230 037056 230 036290 230 033133.8 230 034541 230 033940 230 037830 230 039650 480# 13 320 1.9 4 5 60 16 231 045440# 231 041220# 231 038560 231 036304.3 231 035884.0 231 036294 231 038250 231 041101 231 045560# 500# 320# 110 1.9 2.4 3 50 28 320# 232 049770# 232 043640# 232 042030 232 038055.3 232 038592 232 037156.2 232 040110# 232 041187 232 046590# 690# 300# 110 2.1 8 2.4 110# 19 320# 233 048060# 233 044550# 233 041581.8 233 040247.3 233 039635.2 233 040740 233 043000 233 046350# 233 050770 500# 320# 2.1 2.3 2.9 50 50 110# 80 398 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 146 145 144 143 142 141 140 139 138 88 89 90 91 92 93 94 95 96 234 Ra Ac Th Pa U Np Pu Am Cm +α x +α IT 146 145 144 143 142 141 140 139 138 89 90 91 92 93 94 95 96 97 235 147 146 145 144 143 142 141 140 139 89 90 91 92 93 94 95 96 97 236 147 146 145 144 143 142 141 140 139 90 91 92 93 94 95 96 97 98 237 148 147 146 145 144 143 142 141 140 90 91 92 93 94 95 96 97 98 238 148 147 146 145 144 143 142 141 91 92 93 94 95 96 97 98 239 − −α −α −α Ac Th Pa U Np Pu Am Cm Bk +α +n2p + Ac Th Pa U Np Pu Am Cm Bk +α x + Th Pa U Np Pu Am Cm Bk Cf Th Pa U Np Pu Am Cm Bk Cf Pa U Np Pu Am Cm Bk Cf −α −α −α x IT −α − −α x +α + −α −α −α x +α + -n −α −α −α x x -n −α − −α −α Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) β− β− β− β− 47230# 45100# 40614 40341 38146.6 39956 40350 44530# 46724 490# 400# 3 5 1.8 9 7 210# 18 7575# 7581# 7596.849 7594.673 7600.708 7589.63 7584.607 7563# 7550.68 2# 2# 0.015 0.020 0.008 0.04 0.030 1# 0.08 47720# 44260 42330 40920.5 41044.7 42184 44660# 47910# 52700# 360# 50 50 1.8 2.0 21 120# 200# 400# 7572# 7583.37 7588.24 7590.907 7587.049 7578.87 7565# 7548# 7524# 2# 0.21 0.21 0.008 0.008 0.09 1# 1# 2# β− β− β− 51510# 46450# 45350 42446.3 43380 42902.7 46180# 47890# 53400# 500# 200# 200 1.8 50 2.2 100# 200# 400# 7558# 7576# 7577.5 7586.477 7579.21 7577.913 7561# 7550# 7523# 2# 1# 0.8 0.008 0.21 0.009 0# 1# 2# β− β− β− β− β− 50200# 47640 45391.9 44873.3 45093.3 46570# 49280# 53100# 57820# 360# 100 1.9 1.8 2.2 60# 210# 220# 500# 7562# 7569.9 7576.094 7574.982 7570.752 7561# 7546# 7527# 7504# 2# 0.4 0.008 0.008 0.009 0# 1# 1# 2# β− β− β− 52630# 50770 47308.9 47456.3 46164.7 48420 49400 54290# 57200# 280# 60 1.9 1.8 1.8 50 40 290# 400# 7554# 7558.87 7570.120 7566.214 7568.354 7555.58 7548.20 7524# 7509# 1# 0.25 0.008 0.008 0.008 0.21 0.15 1# 2# β− β− β− β− 53340# 50573.9 49312.4 48589.9 49392.0 51190# 54290# 58150# 200# 1.9 2.1 1.8 2.4 100# 230# 210# 7550# 7558.557 7560.561 7560.311 7553.681 7543# 7527# 7507# 1# 0.008 0.009 0.008 0.010 0# 1# 1# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ 2130# 4490# 273 2195 * 1810 393 4180# 2190# 630# 400# 3 4 8 11 210# 210# 3470# 1920 1410 * 124.2 1139 2480# 3250# 4790# 360# 70 50 5050# 1110# 2900 -930 480 * 3280# 1710# 5510# 540# 280# 200 50 50 2560# 2250 518.6 * 220.0 1480# 2710# 3820# 4720# 370# 100 0.5 1860# 3460 -147.3 1291.5 * 2260 970 4890# 2920# 290# 60 1.2 0.4 2760# 1261.5 722.5 * 802.1 1800# 3100# 3860# 200# 1.6 1.0 0.9 21 120# 240# 450# 100# 220# 450# 1.3 60# 220# 310# 550# 50 60 290# 490# 1.7 100# 250# 310# Atomic mass µu 234 050700# 234 048420# 234 043601 234 043308 234 040952.1 234 042895 234 043317 234 047810# 234 050160 530# 430# 4 5 2.0 9 7 220# 20 235 051230# 235 047510 235 045440 235 043929.9 235 044063.3 235 045286 235 047950# 235 051430# 235 056580# 380# 50 50 2.0 2.1 22 130# 220# 430# 236 055300# 236 049870# 236 048680 236 045568.0 236 046570 236 046058.0 236 049580# 236 051410# 236 057330# 540# 210# 210 2.0 50 2.4 110# 220# 430# 237 053890# 237 051150 237 048730.2 237 048173.4 237 048409.7 237 050000# 237 052900# 237 057000# 237 062070# 390# 110 2.0 2.0 2.4 60# 220# 240# 540# 238 056500# 238 054500 238 050788.2 238 050946.4 238 049559.9 238 051980 238 053030 238 058280# 238 061410# 300# 60 2.0 2.0 2.0 50 40 310# 430# 239 057260# 239 054293.3 239 052939.0 239 052163.4 239 053024.5 239 054960# 239 058280# 239 062420# 210# 2.1 2.2 2.0 2.6 110# 250# 230# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 149 148 147 146 145 144 143 142 141 91 92 93 94 95 96 97 98 99 240 Pa U Np Pu Am Cm Bk Cf Es x +α + 149 148 147 146 145 144 143 142 92 93 94 95 96 97 98 99 241 150 149 148 147 146 145 144 143 142 92 93 94 95 96 97 98 99 100 242 150 149 148 147 146 145 144 143 93 94 95 96 97 98 99 100 243 151 150 149 148 147 146 145 144 93 94 95 96 97 98 99 100 244 151 150 149 148 147 146 145 144 94 95 96 97 98 99 100 101 245 152 151 150 149 148 147 146 145 94 95 96 97 98 99 100 101 246 U Np Pu Am Cm Bk Cf Es U Np Pu Am Cm Bk Cf Es Fm Np Pu Am Cm Bk Cf Es Fm +n −α − −α x x + − −α −α +α + -n −α − −α −α x IT −α −α −α −α −α Binding energy per nucleon (keV) 56800# 52715 52315 50127.0 51512 51725.4 55670# 58030# 64200# 300# 5 15 1.8 14 2.3 150# 200# 400# 7538# 7551.771 7550.18 7556.036 7547.01 7542.856 7523# 7510# 7481# 1# 0.021 0.06 0.008 0.06 0.010 1# 1# 2# 56200# 54260 52956.8 52936.0 53703.4 56100# 59360# 63840# 300# 70 1.8 1.8 2.2 200# 260# 230# 7539# 7544.26 7546.432 7543.272 7536.841 7524# 7507# 7485# 1# 0.29 0.008 0.008 0.009 1# 1# 1# 58620# 57420 54718.4 55469.7 54805.2 57740# 59340 64970# 68400# 200# 200 1.9 1.8 1.8 200# 40 330# 400# 7532# 7533.4 7541.321 7534.984 7534.497 7519# 7509.30 7483# 7465# 1# 0.8 0.008 0.008 0.008 1# 0.15 1# 2# 59880# 57756 57176.1 57183.6 58691 60950# 64780# 69260# 30# 3 2.3 2.1 5 140# 230# 220# 7525# 7531.004 7530.169 7526.918 7517.495 7505# 7486# 7464# 0# 0.013 0.009 0.009 0.020 1# 1# 1# 300# 5 2.1 1.8 14 2.9 180# 280# 7514# 7524.817 7521.301 7523.944 7511.47 7505.132 7483# 7468# 1# 0.021 0.009 0.007 0.06 0.012 1# 1# Np Pu Am Cm Bk Cf Es Fm + −α −α −α −α −α 63200# 59806 59881.0 58453.7 60716 61479.2 66030# 69010# Pu Am Cm Bk Cf Es Fm Md -n +α −α −α −α −α −α IT 63106 61900 61004.7 61815.4 63386.9 66440# 70220# 75290# 14 3 2.1 2.3 2.9 200# 280# 320# 7513.58 7515.306 7515.766 7509.264 7499.657 7484# 7465# 7441# 0.06 0.014 0.008 0.009 0.012 1# 1# 1# 65395 64995 62618.4 63970 64091.7 67900# 70140 76280# 15 18 2.1 60 2.1 220# 40 330# 7506.54 7504.99 7511.465 7502.80 7499.115 7480# 7468.17 7440# 0.06 0.07 0.008 0.24 0.009 1# 0.16 1# Pu Am Cm Bk Cf Es Fm Md x Mass excess (keV) IT − −α −α −α −α 399 Beta-decay energy (keV) β− β− β− β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β− β− β− β− β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β− β− β− β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ 4090# 400 2188 * 1385 214 3940# 2370# 6160# 300# 16 15 1940# 1300 20.78 * 767.4 2400# 3260# 4480# 310# 70 0.13 1200# 2700 -751.3 664.5 * 2930# 1600# 5630# 3430# 280# 200 0.7 0.4 2120# 579.4 * 7.5 1508 2250# 3840# 4480# 30# 2.9 14 14 150# 250# 450# 1.2 200# 320# 340# 200# 200# 330# 520# 1.7 5 140# 270# 320# 3400# -75 1427.3 * 2262 764 4550# 2980# 300# 5 1.0 1206 895.0 * 810.7 1571.4 3050# 3780# 5070# 15 2.8 401 2376 * 1350 120 3810# 2240# 6140# 14 15 180# 340# 1.7 2.6 200# 340# 420# 14 18 60 60 220# 230# 330# Atomic mass µu 240 060980# 240 056592 240 056162 240 053813.5 240 055300 240 055529.5 240 059760# 240 062300# 240 068920# 320# 6 16 2.0 15 2.5 160# 220# 430# 241 060330# 241 058250 241 056851.5 241 056829.1 241 057653.0 241 060230# 241 063730# 241 068540# 320# 80 2.0 2.0 2.3 220# 270# 240# 242 062930# 242 061640 242 058742.6 242 059549.2 242 058835.8 242 061980# 242 063700 242 069750# 242 073430# 220# 210 2.0 2.0 2.0 220# 40 350# 430# 243 064280# 243 062003 243 061381.1 243 061389.1 243 063008 243 065430# 243 069550# 243 074350# 30# 3 2.5 2.2 5 150# 250# 230# 244 067850# 244 064204 244 064284.8 244 062752.6 244 065181 244 066001 244 070880# 244 074080# 320# 5 2.2 2.0 16 3 200# 300# 245 067747 245 066452 245 065491.2 245 066361.6 245 068049 245 071320# 245 075390# 245 080830# 15 4 2.2 2.5 3 220# 300# 350# 246 070205 246 069775 246 067223.7 246 068670 246 068805.3 246 072900# 246 075300 246 081890# 16 20 2.2 60 2.2 240# 40 350# 400 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. 153 152 151 150 149 148 147 146 94 95 96 97 98 99 100 101 247 Pu Am Cm Bk Cf Es Fm Md x + 153 152 151 150 149 148 147 146 95 96 97 98 99 100 101 102 248 154 153 152 151 150 149 148 147 95 96 97 98 99 100 101 102 249 154 153 152 151 150 149 148 96 97 98 99 100 101 102 250 155 154 153 152 151 150 149 148 96 97 98 99 100 101 102 103 251 156 155 154 153 152 151 150 149 96 97 98 99 100 101 102 103 252 156 155 154 153 152 151 150 149 97 98 99 100 101 102 103 104 253 −α − −α −α IT + Mass excess (keV) Binding energy per nucleon (keV) 69000# 67150# 65534 65491 66137 68610# 71580# 76040# 300# 100# 4 6 8 30# 140# 320# 7494# 7499# 7501.928 7498.936 7493.15 7480# 7465# 7444# 1# 0# 0.018 0.022 0.03 0# 1# 1# 200# 5 70# 5 50# 12 240# 300# 7487# 7496.731 7491# 7491.036 7476# 7465.91 7442# 7424# 1# 0.020 0# 0.021 0# 0.05 1# 1# Beta-decay energy (keV) β− β− β− β+ β+ β+ β+ β− β− β− Am Cm Bk Cf Es Fm Md No IT −α −α −α −α −α 70560# 67392 68080# 67240 70300# 71906 77150# 80660# Am Cm Bk Cf Es Fm Md No x -n + −α −α −α −α −α 73100# 70750 69849.6 69725.6 71180# 73620# 77330# 81820# 300# 5 2.6 2.2 30# 100# 220# 340# 7479# 7485.552 7486.027 7483.383 7474# 7461# 7443# 7422# 1# 0.020 0.010 0.009 0# 0# 1# 1# β− β− β− Cm Bk Cf Es Fm Md No -nn +α −α − −α −α −α 72989 72951 71171.8 73230# 74074 78640# 81520# 11 4 2.1 100# 12 300# 200# 7478.94 7475.961 7479.950 7469# 7462.08 7441# 7426# 0.04 0.016 0.008 0# 0.05 1# 1# β− β− Cm Bk Cf Es Fm Md No Lr + + −α −α −α −α −α x 76648 75228 74135 74512 75987 79030# 82910# 87900# 23 11 4 6 8 200# 180# 300# 7466.72 7469.26 7470.502 7465.881 7456.89 7442# 7423# 7400# 0.09 0.04 0.018 0.024 0.03 1# 1# 1# Cm Bk Cf Es Fm Md No Lr x + −α − −α x −α −α 79060# 78530# 76034 77290 76817 80630# 82881 88840# 300# 200# 5 50 6 200# 13 250# 7460# 7459# 7465.349 7457.24 7456.031 7438# 7425.76 7399# 1# 1# 0.020 0.20 0.023 1# 0.05 1# β− β− β− β− Bk Cf Es Fm Md No Lr Rf −α −α −α −α x −α −α −α 80930# 79301 79013.7 79350 81300# 84470# 88690# 93790# 360# 6 2.6 4 210# 100# 220# 450# 7451# 7454.831 7452.874 7448.455 7438# 7422# 7402# 7379# 1# 0.024 0.010 0.015 1# 0# 1# 2# β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ 1840# 1620# 43 * 646 2470# 2970# 4460# 310# 100# 7 3170# -690# 840# * 3060# 1610# 5240# 3520# 200# 70# 70# 2350# 901 124.0 * 1450# 2440# 3710# 4490# 300# 5 1.4 38 1780 * 2060# 850# 4560# 2880# 12 3 1420 1093 * 378 1474 3040# 3890# 4980# 520# 2500# -1260 480 * 3810# 2250# 5960# 1630# 287 * 336 1950# 3170# 4220# 5100# 6 30# 150# 350# 50# 50# 240# 380# 30# 110# 250# 410# 100# 100# 300# 360# 20 10 7 7 200# 270# 350# 360# 200# 50 50 200# 200# 250# 360# 6 3 210# 230# 250# 510# Atomic mass µu 247 074070# 247 072090# 247 070354 247 070307 247 071001 247 073660# 247 076850# 247 081640# 320# 110# 5 6 9 30# 150# 350# 248 075750# 248 072349 248 073090# 248 072185 248 075470# 248 077195 248 082820# 248 086600# 220# 5 80# 6 60# 13 260# 320# 249 078480# 249 075953 249 074986.7 249 074853.5 249 076410# 249 079030# 249 083010# 249 087830# 320# 5 2.8 2.4 30# 110# 240# 370# 250 078357 250 078317 250 076406.1 250 078610# 250 079521 250 084420# 250 087510# 12 4 2.2 110# 13 320# 220# 251 082285 251 080760 251 079587 251 079992 251 081575 251 084840# 251 089010# 251 094360# 24 12 5 7 9 220# 190# 320# 252 084870# 252 084310# 252 081626 252 082980 252 082467 252 086560# 252 088977 252 095370# 320# 220# 5 50 6 210# 14 270# 253 086880# 253 085133 253 084824.7 253 085185 253 087280# 253 090680# 253 095210# 253 100690# 390# 7 2.8 4 220# 110# 240# 490# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) 157 156 155 154 153 152 151 150 97 98 99 100 101 102 103 104 254 Bk Cf Es Fm Md No Lr Rf x −α −α −α − −α −α −α 84390# 81341 81992 80904.2 83510# 84724 89850# 93320# 300# 12 4 2.8 100# 18 340# 290# 7440# 7449.23 7443.584 7444.786 7431# 7423.59 7400# 7384# 1# 0.05 0.017 0.011 0# 0.07 1# 1# β− β− β− 157 156 155 154 153 152 151 150 98 99 100 101 102 103 104 105 255 Cf Es Fm Md No Lr Rf Db + −α −α −α −α −α −α −α 84810# 84089 83799 84843 86854 90060# 94400# 100040# 200# 11 5 7 10 210# 180# 420# 7438# 7437.82 7435.890 7428.729 7417.78 7402# 7382# 7357# 1# 0.04 0.019 0.026 0.04 1# 1# 2# β− β− 158 157 156 155 154 153 152 151 98 99 100 101 102 103 104 105 256 Cf Es Fm Md No Lr Rf Db x + −α −α −α −α −α −α 87040# 87190# 85486 87620 87824 91870# 94236 100720# 300# 100# 7 50 8 220# 24 290# 7432# 7428# 7431.783 7420.41 7416.54 7398# 7385.38 7357# 1# 0# 0.028 0.21 0.03 1# 0.09 1# β− β− 158 157 156 155 154 153 152 99 100 101 102 103 104 105 257 Es Fm Md No Lr Rf Db −α −α −α −α −α −α −α 89400# 88589 88996.2 90241 92740# 95930# 100340# 410# 6 2.8 22 210# 100# 230# 7422# 7422.196 7417.569 7409.68 7397# 7381# 7361# 2# 0.025 0.011 0.08 1# 0# 1# 159 158 157 156 155 154 153 152 99 100 101 102 103 104 105 106 258 Es Fm Md No Lr Rf Db Sg x −α −α −α −α −α −α −α 92700# 90430# 91688 91480# 94840# 96400# 101750# 105420# 300# 200# 5 200# 100# 200# 340# 410# 7412# 7418# 7409.669 7407# 7391# 7382# 7359# 7341# 1# 1# 0.018 1# 0# 1# 1# 2# β− β− β− 159 158 157 156 155 154 153 100 101 102 103 104 105 106 259 Fm Md No Lr Rf Db Sg −α −α −α −α −α −α −α 93700# 93620# 94110# 95850# 98400# 102100# 106660# 280# 200# 100# 70# 70# 210# 180# 7407# 7405# 7400# 7390# 7377# 7360# 7339# 1# 1# 0# 0# 0# 1# 1# β− 160 159 158 157 156 155 154 153 100 101 102 103 104 105 106 107 260 Fm Md No Lr Rf Db Sg Bh −α −α −α −α −α −α −α −α 95640# 96550# 95610# 98280# 99150# 103680# 106580 113610# 500# 320# 200# 120# 200# 230# 40 580# 7403# 7396# 7397# 7383# 7377# 7357# 7342.42 7312# 2# 1# 1# 0# 1# 1# 0.15 2# β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β+ β− + β β+ β+ β+ β+ β+ β+ β+ β+ + β β+ β+ β+ β+ β− β− β+ β+ β+ β+ β+ 3050# -651 1088 * 2610# 1210# 5120# 3470# 300# 13 3 100# 100# 340# 440# 720# 290 * 1044 2011 3200# 4340# 5640# 200# 10 -150# 1700# * 2130 210 4050# 2360# 6480# 310# 100# 8 9 210# 270# 460# 50 50 220# 220# 290# 810# * 407 1244 2490# 3200# 4410# 410# 2280# -1260# 210# * 3360# 1560# 5350# 3670# 360# 200# 200# 80# * 490# 1740# 2550# 3700# 4560# 350# -910# 940# * 2670# 870# 4530# 2910# 7030# 590# 370# 6 22 210# 230# 250# 220# 230# 400# 540# 220# 120# 100# 220# 280# 230# 230# 310# 230# 580# 401 Atomic mass µu 254 090600# 254 087323 254 088022 254 086854.2 254 089660# 254 090955 254 096450# 254 100180# 320# 13 5 3.0 110# 19 360# 310# 255 091050# 255 090273 255 089962 255 091083 255 093241 255 096680# 255 101340# 255 107400# 220# 12 5 7 11 220# 190# 450# 256 093440# 256 093600# 256 091773 256 094060 256 094283 256 098630# 256 101166 256 108130# 320# 110# 8 60 8 240# 26 310# 257 095980# 257 095105 257 095541 257 096877 257 099560# 257 102990# 257 107720# 440# 7 3 23 220# 110# 240# 258 099520# 258 097080# 258 098431 258 098210# 258 101810# 258 103490# 258 109230# 258 113170# 320# 220# 5 220# 110# 220# 370# 450# 259 100600# 259 100510# 259 101030# 259 102900# 259 105640# 259 109610# 259 114500# 300# 220# 110# 80# 80# 230# 190# 260 102680# 260 103650# 260 102640# 260 105500# 260 106440# 260 111300# 260 114420 260 121970# 540# 340# 220# 120# 220# 250# 40 620# 402 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. Mass excess (keV) Binding energy per nucleon (keV) 160 159 158 157 156 155 154 101 102 103 104 105 106 107 261 Md No Lr Rf Db Sg Bh −α −α −α −α −α −α −α 98480# 98500# 99560# 101315 104380# 108160# 113330# 650# 300# 200# 29 230# 130# 230# 7391# 7388# 7381# 7371.40 7357# 7339# 7316# 2# 1# 1# 0.11 1# 0# 1# 161 160 159 158 157 156 155 101 102 103 104 105 106 107 262 Md No Lr Rf Db Sg Bh −α −α −α −α −α −α −α 101410# 99950# 102120# 102390# 106270# 108420# 114470# 580# 450# 200# 280# 180# 280# 350# 7383# 7385# 7374# 7370# 7352# 7341# 7315# 2# 2# 1# 1# 1# 1# 1# 161 160 159 158 157 156 155 102 103 104 105 106 107 108 263 No Lr Rf Db Sg Bh Hs −α −α −α −α IT −α −α 102980# 103670# 104840# 107110# 110220# 114610# 119750# 490# 360# 180# 170# 120# 370# 350# 7376# 7371# 7363# 7352# 7337# 7317# 7295# 2# 1# 1# 1# 0# 1# 1# 162 161 160 159 158 157 156 102 103 104 105 106 107 108 264 No Lr Rf Db Sg Bh Hs −α −α −α −α −α −α −α 104650# 106230# 106180# 109360# 110780# 116070# 119600 640# 440# 450# 230# 280# 280# 40 7373# 7364# 7361# 7346# 7338# 7315# 7298.24 2# 2# 2# 1# 1# 1# 0.17 162 161 160 159 158 157 156 103 104 105 106 107 108 109 265 Lr Rf Db Sg Bh Hs Mt −α −α −α −α −α −α −α 107900# 108710# 110480# 112820 116570# 121170# 126820# 710# 420# 280# 60 380# 140# 460# 7360# 7354# 7344# 7332.65 7316# 7295# 7271# 3# 2# 1# 0.22 1# 1# 2# 163 162 161 160 159 158 157 103 104 105 106 107 108 109 266 Lr Rf Db Sg Bh Hs Mt −α −α −α −α −α −α −α 111130# 109880# 112740# 113700# 118250# 121190# 127890# 660# 540# 360# 290# 200# 280# 350# 7351# 7352# 7339# 7332# 7312# 7298# 7270# 2# 2# 1# 1# 1# 1# 1# 163 162 161 160 159 158 157 104 105 106 107 108 109 110 267 Rf Db Sg Bh Hs Mt Ea −α −α −α −α −α −α −α 113200# 113990# 115900# 118910# 122760# 127900# 134450# 580# 470# 270# 260# 100# 540# 370# 7343# 7337# 7327# 7312# 7295# 7273# 7245# 164 163 162 161 160 159 158 104 105 106 107 108 109 110 268 Rf Db Sg Bh Hs Mt Ea −α −α −α −α −α −α −α 115170# 116850# 117000# 120870# 123110# 129220# 133940# 710# 530# 540# 380# 410# 320# 500# 7338# 7329# 7325# 7308# 7297# 7271# 7250# Beta-decay energy (keV) β+ β+ β+ β+ β+ β+ β− * 30# 1060# 1750# 3060# 3780# 5170# 710# 360# 200# 230# 260# 260# 261 105720# 261 105750# 261 106880# 261 108770 261 112060# 261 116120# 261 121660# 700# 320# 220# 30 250# 140# 250# 630# 480# 220# 300# 200# 300# 370# β β+ β+ β+ β+ 1460# * 2170# 270# 3880# 2160# 6050# 490# 350# 340# 340# 450# 262 108870# 262 107300# 262 109630# 262 109930# 262 114080# 262 116400# 262 122890# β+ β+ β+ β+ β+ β+ * 690# 1170# 2270# 3110# 4390# 5150# 610# 400# 250# 210# 390# 510# 263 110550# 263 111290# 263 112550# 263 114990# 263 118320# 263 123040# 263 128560# 530# 390# 200# 180# 130# 390# 370# 690# 470# 480# 250# 300# 300# 50 + β− β− 730# Atomic mass µu β+ β+ β+ β+ -1580# 50# * 3190# 1420# 5280# 3530# 500# 370# 400# 280# 264 112350# 264 114040# 264 113990# 264 117400# 264 118930# 264 124600# 264 128390 β+ β+ β+ β+ β+ β+ * 810# 1770# 2340# 3760# 4600# 5650# 830# 510# 290# 380# 400# 480# 265 115840# 265 116700# 265 118600# 265 121110 265 125150# 265 130090# 265 136150# 770# 460# 300# 60 410# 150# 500# 700# 580# 390# 310# 220# 310# 370# β− 770# 620# β β+ β+ β+ β+ 1260# * 2860# 970# 4540# 2940# 6710# 650# 460# 350# 350# 450# 266 119310# 266 117960# 266 121030# 266 122070# 266 126940# 266 130100# 266 137300# 2# 2# 1# 1# 0# 2# 1# β+ β+ β+ β+ β+ β+ * 790# 1910# 3000# 3860# 5140# 6550# 740# 540# 380# 280# 550# 660# 267 121530# 267 122380# 267 124430# 267 127650# 267 131790# 267 137310# 267 144340# 620# 500# 290# 280# 110# 580# 390# 3# 2# 2# 1# 2# 1# 2# β+ β+ β+ β+ β+ β+ * 1680# 150# 3870# 2240# 6120# 4720# 880# 760# 660# 560# 520# 590# 268 123640# 268 125450# 268 125610# 268 129760# 268 132160# 268 138730# 268 143800# 760# 570# 580# 410# 440# 340# 540# + 850# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) 164 163 162 161 160 159 105 106 107 108 109 110 269 Db Sg Bh Hs Mt Ea −α −α −α −α −α −α 118730# 119930# 121740# 124870# 129530# 135180# 770# 660# 410# 120# 550# 140# 7325# 7317# 7308# 7293# 7273# 7249# 3# 2# 2# 0# 2# 1# 165 164 163 162 161 160 105 106 107 108 109 110 270 Db Sg Bh Hs Mt Ea −α −α −α −α −α −α 121760# 121400# 124460# 125430# 131020# 134810# 720# 620# 470# 290# 540# 290# 7316# 7315# 7300# 7294# 7270# 7253# 3# 2# 2# 1# 2# 1# β β+ β+ β+ 360# * 3060# 960# 5600# 3790# 165 164 163 162 161 106 107 108 109 110 271 Sg Bh Hs Mt Ea −α −α −α −α −α 124330# 125920# 128230# 131470# 136060# 650# 560# 340# 570# 110# 7307# 7298# 7286# 7272# 7252# 2# 2# 1# 2# 0# β+ β+ β+ β+ 166 165 164 163 162 161 106 107 108 109 110 111 272 Sg Bh Hs Mt Ea Eb −α −α −α −α −α −α 125900# 128580# 129530# 133890# 136290# 143090# 770# 610# 580# 480# 650# 330# 7304# 7291# 7284# 7266# 7254# 7226# 3# 2# 2# 2# 2# 1# 167 166 165 164 163 162 106 107 108 109 110 111 273 Sg Bh Hs Mt Ea Eb x −α −α −α −α −α 128750# 130050# 132260# 134990# 138670# 143150# 660# 830# 830# 510# 130# 610# 7296# 7288# 7277# 7264# 7248# 7229# 167 166 165 164 163 107 108 109 110 111 274 Bh Hs Mt Ea Eb −α −α −α −α −α 132680# 133330# 137390# 139250# 145050# 780# 650# 560# 490# 620# 168 167 166 165 164 107 108 109 110 111 275 Bh Hs Mt Ea Eb x −α −α −α −α 134370# 135950# 138460# 141750# 145450# 168 167 166 165 108 109 110 111 276 Hs Mt Ea Eb −α −α −α −α 169 168 167 166 165 108 109 110 111 112 277 Hs Mt Ea Eb Ec 169 168 167 166 109 110 111 112 278 Mt Ea Eb Ec Atomic mass µu 269 127460# 269 128760# 269 130690# 269 134060# 269 139060# 269 145120# 830# 700# 440# 130# 590# 150# 780# 550# 610# 610# 270 130710# 270 130330# 270 133620# 270 134650# 270 140660# 270 144720# 770# 660# 500# 310# 580# 310# * 1590# 2310# 3240# 4590# 850# 650# 660# 570# 271 133470# 271 135180# 271 137660# 271 141140# 271 146060# 700# 600# 360# 610# 110# β+ β+ β+ β+ β+ * 2680# 950# 4370# 2400# 6800# 980# 840# 750# 810# 730# 272 135160# 272 138030# 272 139050# 272 143740# 272 146320# 272 153620# 820# 650# 620# 520# 700# 360# 2# 3# 3# 2# 0# 2# β+ β+ β+ β+ β+ * 1300# 2210# 2730# 3680# 4490# 1060# 1170# 970# 530# 620# 273 138220# 273 139620# 273 141990# 273 144910# 273 148860# 273 153680# 710# 890# 890# 550# 140# 650# 7282# 7276# 7259# 7249# 7225# 3# 2# 2# 2# 2# β+ β+ β+ β+ * 640# 4060# 1860# 5800# 1010# 850# 740# 790# 274 142440# 274 143130# 274 147490# 274 149490# 274 155710# 840# 700# 600# 530# 660# 650# 710# 590# 450# 690# 7278# 7270# 7258# 7243# 7227# 2# 3# 2# 2# 3# β+ β+ β+ β+ * 1590# 2510# 3290# 3690# 970# 930# 740# 830# 275 144250# 275 145950# 275 148650# 275 152180# 275 156140# 700# 770# 640# 480# 740# 137120# 140800# 142550# 147640# 820# 680# 610# 630# 7268# 7252# 7243# 7222# 3# 2# 2# 2# β+ β+ β+ * 3680# 1750# 5090# 1070# 910# 870# 276 147210# 276 151160# 276 153030# 276 158490# 890# 730# 650# 670# −α −α −α −α −α 139580# 141980# 144980# 148590# 152710# 730# 880# 960# 620# 130# 7262# 7251# 7237# 7221# 7204# 3# 3# 3# 2# 0# β+ β+ β+ β+ * 2400# 3010# 3610# 4120# 1140# 1310# 1150# 630# 277 149840# 277 152420# 277 155650# 277 159520# 277 163940# 780# 950# 1040# 660# 140# −α −α −α −α 144210# 145750# 150530# 153060# 840# 680# 630# 530# 7246# 7237# 7217# 7206# 3# 2# 2# 2# β+ β+ β+ * 1540# 4780# 2520# 1080# 930# 830# 278 154810# 278 156470# 278 161600# 278 164310# 900# 730# 680# 570# β+ β+ β+ β+ β+ β− + * 1210# 1810# 3130# 4660# 5650# 403 1010# 780# 430# 560# 570# 950# 404 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 N Z A Elt. Orig. Mass excess (keV) Binding energy per nucleon (keV) Beta-decay energy (keV) 170 169 168 167 109 110 111 112 279 Mt Ea Eb Ec −α −α −α −α 145490# 147980# 151340# 155140# 720# 740# 660# 490# 7244# 7232# 7218# 7201# 3# 3# 2# 2# β+ β+ β+ * 2490# 3360# 3800# 1030# 1000# 830# 279 156190# 279 158860# 279 162470# 279 166550# 770# 800# 710# 530# 170 169 168 110 111 112 280 Ea Eb Ec −α −α −α 148850# 153210# 155600# 850# 740# 640# 7232# 7214# 7203# 3# 3# 2# β+ β+ * 4360# 2390# 1130# 980# 280 159800# 280 164470# 280 167040# 910# 800# 690# 171 170 169 110 111 112 281 Ea Eb Ec −α −α −α 150960# 154040# 157690# 730# 930# 990# 7228# 7214# 7198# 3# 3# 4# β+ β+ * 3080# 3650# 1180# 1360# 281 162060# 281 165370# 281 169290# 780# 1000# 1060# 171 170 111 112 282 Eb Ec −α −α 156010# 158140# 890# 710# 7210# 7200# 3# 3# β+ * 2120# 1140# 282 167490# 282 169770# 950# 760# 172 171 170 111 112 113 283 Eb Ec Ed −α −α −α 156880# 160020# 164360# 780# 770# 730# 7210# 7196# 7178# 3# 3# 3# β+ β+ * 3150# 4340# 1090# 1060# 283 168420# 283 171790# 283 176450# 840# 830# 780# 172 171 112 113 284 Ec Ed −α −α 160570# 165880# 850# 800# 7197# 7176# 3# 3# β+ * 5310# 1170# 284 172380# 284 178080# 910# 860# 173 172 171 112 113 114 285 Ec Ed Ee −α −α −α 162180# 166490# 171110# 730# 980# 1030# 7195# 7177# 7158# 3# 3# 4# β+ β+ * 4310# 4630# 1220# 1420# 285 174110# 285 178730# 285 183700# 780# 1050# 1110# 173 172 113 114 286 Ed Ee −α −α 168120# 171260# 940# 770# 7174# 7161# 3# 3# β+ * 3140# 1210# 286 180480# 286 183860# 1010# 830# 174 173 172 113 114 115 287 Ed Ee Ef −α −α −α 168640# 172880# 178090# 830# 770# 790# 7176# 7158# 7137# 3# 3# 3# β+ β+ * 4240# 5200# 1140# 1100# 287 181050# 287 185600# 287 191190# 900# 830# 850# 174 173 114 115 288 Ee Ef −α −α 172970# 179310# 850# 850# 7161# 7136# 3# 3# β+ * 6340# 1210# 288 185690# 288 192490# 910# 920# 175 174 173 114 115 116 289 Ee Ef Eg −α −α −α 174450# 179510# 185240# 730# 1020# 1090# 7159# 7139# 7116# 3# 4# 4# β+ β+ * 5060# 5730# 1260# 1490# 289 187280# 289 192720# 289 198860# 790# 1100# 1170# 175 174 115 116 290 Ef Eg −α −α 180840# 184990# 980# 840# 7137# 7120# 3# 3# β+ * 4140# 1300# 290 194140# 290 198590# 1060# 910# 176 175 174 115 116 117 291 Ef Eg Eh −α −α −α 181070# 186310# 192410# 890# 850# 880# 7140# 7119# 7096# 3# 3# 3# β+ β+ * 5240# 6100# 1230# 1220# 291 194380# 291 200010# 291 206560# 950# 910# 950# 176 175 116 117 292 Eg Eh −α −α 186100# 193330# 850# 940# 7123# 7096# 3# 3# β+ * 7230# 1270# 292 199790# 292 207550# 920# 1010# 175 118 293 Ei −α 199960# 1200# 7074# 4# 293 214670# 1290# * Atomic mass µu G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 405 Table II. Influences on primary nuclei EXPLANATION OF TABLE This table gives for each of the 847 primary nuclei the up to three most important contributing data and their influences (×100) on its mass, as given by the flow-of-information matrix. Nucleus Influence Equation Nucleus (primaries only) Influence (×100) brought to the determination of the mass of the nucleus, by the piece of data represented by the equation in following column In mass-doublet equation: In mass-triplet equation: In nuclear reaction: Rbx , Rby : different Km , Csm , Csn : H =1 H, N =14 N, mixtures of isomers upper isomers, D =2 H, O =16 O, 12 or contaminants. see NUBASE. C = C. 406 Nucleus 0π + 0π − 1n 1 H 2 H 3 H 3 He 4 He 6 He 6 Li 7 Li 7 Be 8 He 8 Li 8 Be 8 B 9 He 9 Li 9 Be 10 Be 10 B 11 Li 11 B 11 C 12 N 13 C 13 N 14 B 14 C 14 N 14 O 15 N 15 O 16 O 17 O 17 F 18 O 18 F 19 F 19 Ne 20 F 20 Ne 22 Ne 23 Na 23 Mg 24 Mg 25 Mg 26 Mg 26 Al 27 Na 27 Al 28 Na 28 Si 29 Na 31 P 32 S 33 S 34 S 34 Cl 35 S 35 Cl G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Infl. 100.0 99.6 100.0 77.9 61.3 72.7 67.7 100.0 99.8 100.0 100.0 100.0 94.4 100.0 99.9 100.0 91.3 58.4 88.0 98.9 100.0 54.7 100.0 100.0 100.0 57.5 100.0 100.0 79.9 56.2 57.9 67.4 100.0 97.3 99.5 100.0 45.2 76.1 98.6 72.8 99.8 44.0 99.9 100.0 73.5 95.9 55.9 75.4 67.2 88.3 83.9 100.0 57.1 100.0 83.5 90.8 87.0 94.7 87.0 95.5 62.3 Equation π+ π + (2β + )π − 1 H(n,γ )2 H H12 −C D6 −C 3 H4 −C 3 H(β − )3 He 4 He3 −C 7 Li(d,3 He)6 He−19 F()18 O 6 Li2 −C 6 Li(n,γ )7 Li 7 Li(p,n)7 Be 4 He(64 Ni,60 Ni)8 He 7 Li(n,γ )8 Li 8 Be(α )4 He 6 Li(3 He,n)8 B 9 He(γ ,n)8 He 10 Be(d,3 He)9 Li 9 Be(γ ,n)8 Be 9 Be(n,γ )10 Be 10 B(α ,d)12 C 11 Li−C.917 10 B(n,γ )11 B 11 C(β + )11 B 14 N(p,t)12 N C D−13 C H 12 C(p,γ )13 N 14 C(7 Li,7 Be)14 B 14 C H2 −N D C H2 −N 26 Mg(3 He,t)26 Al−14 N()14 O C D H−15 N 15 N(p,n)15 O C4 −O3 16 O(n,γ )17 O 16 O(p,γ )17 F 18 F(β + )18 O 17 O(p,γ )18 F C D4 −H 19 F 19 Ne−22 Ne.864 19 F(n,γ )20 F 20 Ne2 −40 Ar 22 Ne−C1.833 23 Na−C1.917 24 Mg(p,d)23 Mg 24 Mg−C2 24 Mg(n,γ )25 Mg 26 Mg−C2.167 25 Mg(p,γ )26 Al 27 Na−27 Al 27 Al(p,γ )28 Si 28 Na−C2.333 C2 D2 −28 Si 29 Na−C2.417 31 P(p,α )28 Si 32 S(n,γ )33 S 33 S(n,γ )34 S 34 S(n,γ )35 S 33 S(p,γ )34 Cl 35 S(β − )35 Cl C3 −35 Cl H Infl. Equation Infl. Equation 17.8 24.2 27.3 24.0 C H4 −O C2 D8 −40 Ar 3 H(β − )3 He 3 He4 −C 2.8 10.0 C H2 −N C D4 −20 Ne 0.2 144 Sm(3 He,6 He)141 Sm 5.1 197 Au(α ,8 He)193 Au 0.1 9 8.7 41.6 11.0 1.1 9 45.3 11 36.8 C D−13 C H 20.1 31.6 42.1 17.6 C D2 −14 C H2 N2 −C O 14 N(p,n)14 O C H3 −15 N 2.3 0.2 8.3 H D−3 He 0.4 9 He(γ ,n)8 He 1.0 9 Be(n,γ )10 Be 5.7 13 C−C1.083 11.9 14 N−C1.167 15.0 15 N2 −28 Si H2 0.3 0.2 17 17.1 18 O(3 He,p)20 F 0.2 19 F(n,γ )20 F 21.6 20 Ne2 −40 Ar 4.3 1.5 6.9 25 Be(γ ,n)8 Be Be(14 C,14 O)9 He Li(t,p)9 Li 6 Li(α ,p)9 Be 10 Be(d,3 He)9 Li 7 B(π − ,π + )11 Li C H4 −O O(p,γ )18 F 17 O(n,γ )18 O F(β + )18 O 19 F(p,n)19 Ne 19 F(p,n)19 Ne 18 O(3 He,p)20 F C D4 −20 Ne 19 Ne−22 Ne.864 37.5 23.9 1.2 27.2 0.2 34.4 0.1 17 26.5 4.1 39.8 21.5 21.7 11.7 16.1 23 42.9 15 16.5 8.7 8.8 5.1 13.0 4.5 17.1 31 N2 −C O O(n,γ )18 O 18 Na(p,n)23 Mg Mg(n,γ )25 Mg 25 Mg(n,γ )26 Mg 25 Mg(n,γ )26 Mg 26 Mg(p,n)26 Al 27 Na−C2.25 26 Mg(p,γ )27 Al 24 N2 −28 Si H2 P(p,γ )32 S P(p,γ )32 S 32 S(n,γ )33 S 33 S(n,γ )34 S 34 3 S( He,t)34 Cl 34 S(n,γ )35 S C5 H10 −35 Cl2 31 Mg(p,γ )26 Al Mg(p,n)26 Al 26 Mg(3 He,t)26 Al−14 N()14 O 26 C 32 S2 −74 Ge H2 S(p,γ )34 Cl 34 3 S( He,t)34 Cl 0.5 4.2 0.2 33 5.9 199 Hg−C2 35 Cl5 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Nucleus Infl. Equation Infl. Equation 36 64.8 96.6 99.4 70.9 69.2 82.5 97.7 47.1 65.6 51.3 94.2 91.2 48.4 87.2 88.0 84.2 92.6 71.1 80.5 96.7 94.7 97.9 42.6 89.8 57.0 82.8 87.1 43.6 45.4 58.2 56.3 61.3 79.3 84.0 52.0 67.5 49.3 50.9 54.5 76.2 78.4 66.9 80.1 55.8 79.5 37.2 59.6 69.0 75.9 60.7 74.5 79.8 35.6 52.0 84.3 61.0 87.7 69.9 67.4 44.1 55.4 36 S(p,γ )37 Cl Cl(n,γ )36 Cl 36 Ar−C3 C3 H6 O2 −37 Cl2 38 Ar−39 K.974 38 m K (IT)38 K 38 Ar(p,n)38 Km 39 K−36 Ar1.083 C3 H4 −40 Ar 39 K(n,γ )40 K 39 K(p,γ )40 Ca 40 Ar(n,γ )41 Ar 40 K(n,γ )41 K 40 Ca(n,γ )41 Ca 40 Ca(p,γ )41 Sc 41 r Sc (IT)41 Sc 41 Ca(n,γ )42 Ca 42 r Sc (IT)42 Sc 41 Ca(p,γ )42 Scr −40 Ca()41 Scr 42 Ca(n,γ )43 Ca 43 Ca(n,γ )44 Ca 44 Ca(n,γ )45 Ca 44 Ca(p,γ )45 Sc 46 Ca(n,γ )47 Ca 46 Ti(n,γ )47 Ti 47 Ca(β − )47 Sc 47 Sc(β − )47 Ti 47 Ti(n,γ )48 Ti 48 Ca(p,γ )49 Sc 48 Sc(β − )48 Ti 47 Ti(n,γ )48 Ti 49 Sc(β − )49 Ti 48 Ti(n,γ )49 Ti 49 Ti(n,γ )50 Ti 50 Cr(p,γ )51 Mn 50 Cr(3 He,t)50 Mn−54 Fe()54 Co 51 V(p,n)51 Cr 50 Cr(n,γ )51 Cr 54 Fe(p,α )51 Mn 52 Cr(n,γ )53 Cr 53 Cr(n,γ )54 Cr 52 Cr(p,γ )53 Mn 54 Cr(p,γ )55 Mn 54 Fe(n,γ )55 Fe 54 Fe(3 He,t)54 Co−42 Ca()42 Sc 55 Fe(ε )55 Mn 55 Fe(ε )55 Mn 54 Fe(p,γ )55 Co 55 Mn(n,γ )56 Mn 55 Mn(p,γ )56 Fe 57 Mn−85 Rb.671 56 Fe(n,γ )57 Fe 60 Ni(p,α )57 Co 57 Ni−85 Rb.671 57 Fe(n,γ )58 Fe 59 Co(d,t)58 Co 58 Ni(n,γ )59 Ni 59 Co(p,n)59 Ni 59 Ni(n,γ )60 Ni 60 Ni(n,γ )61 Ni 60 Ni(n,γ )61 Ni 35.2 3.4 0.6 8.1 19.4 17.5 2.3 39.6 24.3 37.7 5.8 8.8 41.9 10.7 12.0 15.8 4.1 23.0 19.5 3.3 3.8 1.9 42.2 10.2 40.7 10.1 12.9 36.2 38.2 41.8 22.1 38.7 16.0 16.0 48.0 32.5 32.3 49.1 45.5 20.0 21.6 33.1 19.9 22.4 20.5 34.0 40.4 31.0 24.1 20.1 25.5 11.7 31.5 28.5 15.7 25.0 11.1 14.4 18.8 31.9 44.6 36 S Cl 36 Ar 37 Cl 38 Ar 38 K 38 m K 39 K 40 Ar 40 K 40 Ca 41 Ar 41 K 41 Ca 41 Sc 41 Scr 42 Ca 42 Sc 42 Scr 43 Ca 44 Ca 45 Ca 45 Sc 46 Ca 46 Ti 47 Ca 47 Sc 47 Ti 48 Ca 48 Sc 48 Ti 49 Sc 49 Ti 50 Ti 50 Cr 50 Mn 51 V 51 Cr 51 Mn 52 Cr 53 Cr 53 Mn 54 Cr 54 Fe 54 Co 55 Mn 55 Fe 55 Co 56 Mn 56 Fe 57 Mn 57 Fe 57 Co 57 Ni 58 Fe 58 Co 58 Ni 59 Co 59 Ni 60 Ni 61 Ni 36 35 S(p,n)36 Cl S(p,n)36 Cl 39 K−36 Ar1.083 C5 H12 −35 Cl 37 Cl 38 Ar(p,γ )39 K 38 Ar(p,n)38 K 38 m K (IT)38 K 39 K(n,γ )40 K C2 D8 −40 Ar 40 K(n,γ )41 K 40 Ca(n,γ )41 Ca 41 Ar(β − )41 K 40 Ar(p,γ )41 K 41 K(p,n)41 Ca 41 Scr (IT)41 Sc 41 Ca(p,γ )42 Scr −40 Ca()41 Scr 42 Ca(3 He,t)42 Sc−26 Mg()26 Al 42 Ca(3 He,t)42 Sc−26 Mg()26 Al 42 Scr (IT)42 Sc 43 Ca(n,γ )44 Ca 44 Ca(p,γ )45 Sc 45 Ca(β − )45 Sc 45 Sc(p,γ )46 Ti 46 Ca(d,t)45 Ca 45 Sc(p,γ )46 Ti 46 Ca(n,γ )47 Ca 47 Ca(β − )47 Sc 46 Ti(n,γ )47 Ti 48 Ca(d,t)47 Ca 48 Ca(p,n)48 Sc 13 35 C Cl−48 Ti 48 Ca(p,γ )49 Sc 49 Ti(n,γ )50 Ti 50 Ti(p,γ )51 V 50 Cr(n,γ )51 Cr 50 Cr(3 He,t)50 Mn 50 Ti(p,γ )51 V 51 V(p,n)51 Cr 50 Cr(p,γ )51 Mn 52 Cr(p,γ )53 Mn 52 Cr(n,γ )53 Cr 56 Fe(p,α )53 Mn 53 Cr(n,γ )54 Cr 54 Fe(p,γ )55 Co 50 Cr(3 He,t)50 Mn−54 Fe()54 Co 55 Mn(p,γ )56 Fe 54 Fe(n,γ )55 Fe 58 Ni(p,α )55 Co 56 Mn−85 Rb.659 56 Fe(n,γ )57 Fe 55 Mn(t,p)57 Mn 57 Fe(n,γ )58 Fe 58 Fe(p,γ )59 Co−56 Fe()57 Co 59 Ni(p,t)57 Ni 58 Fe(p,γ )59 Co−56 Fe()57 Co 60 Ni(d,α )58 Co 58 Ni(p,α )55 Co 62 Ni(p,α )59 Co 59 Co(p,n)59 Ni 59 Ni(n,γ )60 Ni 61 Ni(n,γ )62 Ni 407 Infl. Equation 7.9 11.4 C2 37 7.4 6.7 11.0 0.1 41 4.7 2.0 41 2.2 5.9 42 1.5 0.2 15.2 44 1.3 7.1 46 36 D8 −37 Cl H3 Cl(p,γ )38 Ar K−39 K1.051 Ne2 −40 Ar 40 K(n,p)40 Ar 40 Ca(p,γ )41 Sc 20 41 54 K−39 K1.051 Ca(n,γ )42 Ca Ca(n,γ )43 Ca Fe(3 He,t)54 Co−42 Ca()42 Sc Ca(n,γ )45 Ca Ca(d,t)45 Ca 45 Ca(β − )45 Sc 46 48 Ti 37 Cl−48 Ti 35 Cl Ca(d,t)47 Ca C 35 Cl−47 Ti Ca(p,n)48 Sc 18.5 16.3 48 20.7 48 Ti(n,γ )49 Ti 4.7 49 Ti 37 Cl−51 V 35 Cl 0.2 50 Cr(3 He,t)50 Mn 9.5 49 Ti 37 Cl−51 V 35 Cl 3.8 51 V(p,γ )52 Cr 11.6 54 Fe(p,α )51 Mn 23.4 55 Mn(n,γ )56 Mn 18.8 56 Fe(p,γ )57 Co 6.7 24.3 19.4 57 14.0 1.2 8.9 12.1 16.6 57 Fe(p,n)57 Co Fe(p,γ )57 Co 58 Ni(3 He,α )57 Ni 56 Fe(p,γ )58 Co Ni(3 He,α )57 Ni 58 Fe(p,γ )59 Co−56 Fe()57 Co 58 Ni(n,γ )59 Ni 60 Ni−85 Rb.706 58 408 Nucleus 62 Ni Ni 63 Cu 63 Zn 64 Ni 64 Cu 64 Zn 64 Ga 65 Ni 65 Cu 65 Zn 65 Ga 66 Cu 66 Zn 67 Zn 67 Ga 68 Zn 68 Ge 69 Ga 69 Ge 69 As 69 Se 70 Zn 70 Ga 70 Ge 71 Ga 71 Ge 72 Ga 72 Ge 72 Se 72 Br 72 Kr 73 Ge 73 As 73 Se 73 Br 74 Ge 74 As 74 Se 74 Kr 74 Rb 75 As 75 Se 76 Ge 76 As 76 Se 76 Kr 77 As 77 Se 78 Se 78 Kr 79 Rb 80 Ge 80 As 80 Se 80 Kr 80 Rb 81 Br 81 Kr 81 Rb 82 Se 63 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Infl. 33.8 61.2 37.2 73.1 44.7 67.7 47.7 75.2 92.2 36.9 50.6 64.4 88.9 82.8 70.4 54.8 97.9 99.3 65.3 100.0 77.8 70.0 90.7 64.9 64.1 52.1 61.4 53.0 71.7 99.0 55.0 99.6 62.3 79.9 99.0 63.9 35.1 81.9 98.5 95.7 84.2 63.2 90.6 53.0 84.1 46.6 84.8 33.2 72.3 63.9 95.4 64.6 77.8 86.5 42.7 86.1 87.6 79.6 74.4 64.8 44.0 Equation Infl. Equation Infl. Equation Ni(n,γ )62 Ni Ni(β − )63 Cu 63 Ni(β − )63 Cu 64 Zn(d,t)63 Zn 63 Ni(n,γ )64 Ni 63 Cu(n,γ )64 Cu 64 Zn(n,γ )65 Zn 64 Ga−85 Rb.753 64 Ni(n,γ )65 Ni 65 Cu(p,n)65 Zn 64 Zn(n,γ )65 Zn 64 Zn(p,γ )65 Ga 65 Cu(n,γ )66 Cu 66 Zn(p,α )63 Cu 66 Zn(n,γ )67 Zn 67 Zn(p,n)67 Ga 67 Zn(n,γ )68 Zn 70 Ge(p,t)68 Ge 69 Ga−85 Rb.812 69 Ga(p,n)69 Ge 69 As(β + )69 Ge 69 Se(ε p)68 Ge 70 Zn(p,n)70 Ga 69 Ga(n,γ )70 Ga 70 Ge(n,γ )71 Ge 71 Ga(n,γ )72 Ga 71 Ge(ε )71 Ga 72 Ga−85 Rb.847 72 Ge(n,γ )73 Ge 74 Se(p,t)72 Se 72 Kr(β + )72 Br 72 Kr−85 Rb.847 73 Ge(n,γ )74 Ge 72 Ge(3 He,d)73 As 73 Se(β + )73 As 73 Br(β + )73 Se 73 Ge(n,γ )74 Ge 74 As(β + )74 Ge 74 Se(n,γ )75 Se 74 Kr−85 Rb.871 74 Rb−85 Rb.871 75 As(p,n)75 Se 75 Se(n,γ )76 Se 76 Ge−76 Se 75 As(n,γ )76 As 76 Ge−76 Se 76 Kr−85 Rb.894 80 Se(p,α )77 As 76 Se(n,γ )77 Se 77 Se(n,γ )78 Se 78 Kr−85 Rb.918 79 Rb−C6.583 80 Ge(β − )80 As 80 Se(t,3 He)80 As 80 Se(p,t)78 Se 80 Kr−85 Rb.941 80 Rb−C6.667 81 Br(n,γ )82 Br 81 Kr(ε )81 Br 81 Rb−C6.75 82 Se−82 Kr 31.2 20.1 28.6 26.9 26.0 17.9 28.6 24.8 7.8 36.8 42.5 35.6 11.1 14.7 16.0 45.2 2.1 0.7 34.7 62 Ni(p,γ )63 Cu Ni(n,γ )63 Ni 62 Ni(p,γ )63 Cu 63 Cu(p,n)63 Zn 64 Ni(p,n)64 Cu 64 Cu(β − )64 Zn 64 Cu(β − )64 Zn 64 Zn(p,n)64 Ga 65 Ni−85 Rb.765 65 Cu−85 Rb.765 65 Cu(p,n)65 Zn 65 Ga−85 Rb.765 66 Cu−85 Rb.776 66 Zn(n,γ )67 Zn 67 Zn(p,n)67 Ga 70 Ge(p,α )67 Ga 70 Zn 35 Cl−68 Zn 37 Cl 69 Se(ε p)68 Ge 69 Ga(n,γ )70 Ga 21.2 18.7 26.2 62 21.9 14.3 19.0 64 10.9 6.9 65 2.4 11.6 67 22.2 30.0 9.3 31.8 20.3 32.5 35.7 47.0 15.9 1.0 38.7 0.4 26.6 20.0 1.0 31.6 25.9 18.1 1.2 4.3 15.8 15.8 8.0 43.2 15.9 26.5 15.2 31.4 26.1 15.6 3.8 35.4 22.2 13.5 27.7 10.3 12.4 19.3 21.4 35.2 33.2 69 3.3 6.0 13.3 2.9 70 11.2 C4 H8 O−72 Ge 61 63 62 Se(β + )69 As Se(β + )69 As 70 Zn 35 Cl−68 Zn 37 Cl 70 Ga−85 Rb.824 70 Ge(p,α )67 Ga 71 Ge(ε )71 Ga 70 Ge(n,γ )71 Ge 71 Ga(n,γ )72 Ga 70 Ge H2 −72 Ge 72 Br(β + )72 Se 72 Br(β + )72 Se 72 Kr(β + )72 Br 72 Ge(n,γ )73 Ge 74 Se(d,3 He)73 As 73 Br(β + )73 Se 73 Br−C6.083 76 Ge 35 Cl−74 Ge 37 Cl 74 As(β − )74 Se 74 As(β − )74 Se 74 Rb(β + )74 Kr 74 Rb(β + )74 Kr 75 As(n,γ )76 As 75 As(p,n)75 Se 76 Ge 35 Cl−74 Ge 37 Cl 76 As(β − )76 Se 76 Se(n,γ )77 Se 80 Kr(α ,6 He)78 Kr−78 Kr()76 Kr 76 Ge(3 He,d)77 As 77 Se(n,γ )78 Se 80 Se(p,t)78 Se 80 Kr(α ,6 He)78 Kr−78 Kr()76 Kr 78 Kr(3 He,d)79 Rb 82 Se(14 C,16 O)80 Ge 80 Ge(β − )80 As 82 Se 35 Cl−80 Se 37 Cl 80 Kr(d,p)81 Kr 80 Kr(p,n)80 Rb 81 Kr(ε )81 Br 80 Kr(d,p)81 Kr 80 Kr(3 He,d)81 Rb 82 Se 35 Cl−80 Se 37 Cl Ni(n,γ )63 Ni Ni(n,γ )64 Ni 63 Cu(n,γ )64 Cu 63 Ni−85 Rb.753 Ni(p,n)64 Cu 64 Zn(p,γ )65 Ga 64 71 67 Cu(n,γ )66 Cu Ga(3 He,t)71 Ge−65 Cu()65 Zn Zn N−66 Zn 15 N Zn N−66 Zn 15 N 69 6.3 Zn(p,n)70 Ga C4 H6 O−70 Ge 71 Ga−85 Rb.835 71 Ga(3 He,t)71 Ge−65 Cu()65 Zn 73 Br−72 Br H9 O−73 Ge Se(β + )73 As 11.2 0.1 C4 73 4.5 24.9 73 0.3 74 12.0 1.4 2.8 78 17.3 76 17.7 1.6 10.4 0.7 77 16.0 1.7 80 1.1 4.2 87 16.5 82 Br−72 Br C 32 S2 −74 Ge H2 Se(d,3 He)73 As Se(p,α )75 As Se(n,γ )75 Se 76 Ge(3 He,d)77 As 74 Se 35 Cl−74 Ge 37 Cl As(β − )77 Se As(β − )77 Se C6 H6 −78 Se 78 Kr(3 He,d)79 Rb 77 80 87 Se(p,α )77 As Kr(α ,6 He)78 Kr−78 Kr()76 Kr Rb(3 He,t)87 Sr−81 Br()81 Kr Rb(3 He,t)87 Sr−81 Br()81 Kr Se(p,t)80 Se G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Nucleus 82 Br Kr 82 Rb 82 Rbm 82 Sr 83 Br 83 Kr 83 Rb 84 Se 84 Br 84 Kr 84 Rb 84 Sr 85 Kr 85 Rb 85 Sr 86 Rb 86 Sr 87 Rb 87 Sr 88 Sr 89 Rb 89 Sr 89 Y 89 Zr 90 Rb 90 Sr 90 Y 90 Zr 91 Rb 91 Sr 91 x Sr 91 Y 91 Zr 92 Rb 92 Sr 92 Y 92 Zr 92 Nb 92 Mo 93 Rb 93 Sr 93 Y 93 Zr 93 Nb 93 Mo 94 Rb 94 Sr 94 Y 94 Zr 94 Nb 94 Mo 95 Rb 95 Sr 95 Y 95 Zr 95 Nb 95 Mo 95 Tc 95 Ru 96 Rb 82 Infl. 79.6 54.0 84.0 88.0 55.9 50.1 74.7 65.0 92.3 92.2 39.9 40.0 38.9 94.8 100.0 89.4 99.1 51.1 100.0 48.6 94.6 56.2 94.6 47.6 82.4 60.7 95.1 52.3 70.2 74.8 59.6 73.2 89.0 64.2 53.0 88.7 57.0 54.7 65.4 52.2 66.2 65.4 75.6 43.4 42.8 52.2 80.5 59.5 58.4 54.0 57.2 79.2 54.2 64.5 59.4 41.0 88.8 69.6 97.3 84.9 37.2 Equation Infl. Equation Br(β − )82 Kr Kr−85 Rb.965 82 Rbm (IT)82 Rb 82 Rbm −85 Rb.965 82 Sr−C6.833 83 Br(β − )83 Kr 83 Kr(n,γ )84 Kr 83 Rb−C6.917 82 Se(t,p)84 Se 84 Br(β − )84 Kr 84 Rb(β + )84 Kr 84 Rb(β + )84 Kr 84 Rb(β − )84 Sr 85 Kr(β − )85 Rb C6 H14 −85 Rb 85 Rb(3 He,t)85 Sr 85 Rb(n,γ )86 Rb 86 Sr(n,γ )87 Sr C6 H16 −87 Rb 86 Sr(n,γ )87 Sr 87 Sr(n,γ )88 Sr 89 Rb(β − )89 Sr 88 Sr(n,γ )89 Sr 89 Y(n,γ )90 Y 89 Zr(β + )89 Y 90 Rb−85 Rb1.059 90 Sr(β − )90 Y 89 Y(n,γ )90 Y 90 Zr(n,γ )91 Zr 91 Rb−85 Rb1.071 91 Sr(β − )91 Y 91 Rb(β − )91 Srx 91 Y(β − )91 Zr 91 Zr(n,γ )92 Zr 92 Rb−85 Rb1.082 92 Sr−85 Rb1.082 92 Y(β − )92 Zr 92 Zr(n,γ )93 Zr 92 Zr(p,n)92 Nb 92 Mo(n,γ )93 Mo 93 Rb−85 Rb1.094 93 Sr−85 Rb1.094 93 Y(β − )93 Zr 92 Zr(n,γ )93 Zr 93 Nb(n,γ )94 Nb 93 Nb(p,n)93 Mo 94 Rb−85 Rb1.106 94 Sr−85 Rb1.106 94 Y(β − )94 Zr 94 Zr(n,γ )95 Zr 93 Nb(n,γ )94 Nb 94 Mo(n,γ )95 Mo 95 Rb(β − )95 Sr 95 Sr−85 Rb1.118 95 Y(β − )95 Zr 94 Zr(n,γ )95 Zr 95 Nb(β − )95 Mo 95 Mo(n,γ )96 Mo 95 Tc(β + )95 Mo 96 Ru(p,d)95 Ru 96 Rb(β − )96 Sr 20.4 25.8 10.8 12.0 44.1 49.9 12.7 35.0 7.7 7.8 25.1 24.0 28.0 5.2 81 10.6 0.9 47.8 84 46.1 5.4 42.4 4.5 37.8 17.6 39.3 4.9 43.9 22.4 12.9 29.1 26.8 11.0 28.9 31.5 7.2 29.7 35.8 34.6 26.1 24.8 24.3 24.4 29.6 36.6 47.7 15.3 29.8 29.6 36.2 42.8 11.9 17.1 32.3 28.5 39.6 11.2 20.8 2.7 15.1 26.7 87 82 82 Br(n,γ )82 Br Se−82 Kr 82 Rb−C6.833 82 Rbm (IT)82 Rb 84 Sr(p,t)82 Sr 82 Se(3 He,d)83 Br 83 Br(β − )83 Kr 82 Kr(3 He,d)83 Rb 84 Se(β − )84 Br 84 Se(β − )84 Br 83 Kr(n,γ )84 Kr 84 Rb(β − )84 Sr C6 H12 −84 Sr 84 Kr(d,p)85 Kr 82 Sr(d,p)85 Sr Rb(β − )86 Sr 86 Rb(β − )86 Sr 409 Infl. Equation 16.1 5.2 82 12.6 C6 H11 −83 Kr 23.2 21.9 14.0 C6 85 82 Br(β − )82 Kr Rb(β + )82 Kr H12 −84 Kr Rb(p,d)84 Rb 84 Sr(d,p)85 Sr 86 Rb(3 He,t)87 Sr−81 Br()81 Kr Sr(n,γ )89 Sr 89 Rb−85 Rb1.047 89 Sr(β − )89 Y 89 Sr(β − )89 Y 90 Zr(d,t)89 Zr 90 Rb(β − )90 Sr 90 Rb(β − )90 Sr 90 Y(β − )90 Zr 90 Y(β − )90 Zr 91 Rb(β − )91 Srx 91 Sr−85 Rb1.071 91 x Sr (IT)91 Sr 91 Sr(β − )91 Y 90 Zr(n,γ )91 Zr 92 Rb(β − )92 Sr 92 Rb(β − )92 Sr 92 Sr(β − )92 Y 91 Zr(n,γ )92 Zr 93 Nb(γ ,n)92 Nb C7 H8 −92 Mo 93 Rb(β − )93 Sr 93 Rb(β − )93 Sr 93 Sr(β − )93 Y 94 Zr(d,t)93 Zr 93 Zr(β − )93 Nb 92 Mo(n,γ )93 Mo 94 Rb(β − )94 Sr 94 Sr(β − )94 Y 94 Sr(β − )94 Y 94 Zr(d,t)93 Zr 94 Nb(β − )94 Mo 94 Nb(β − )94 Mo 95 Rb−96 Rb.742 92 Rb.258 95 Sr(β − )95 Y 95 Sr(β − )95 Y 95 Zr(β − )95 Nb 95 Zr(β − )95 Nb 94 Mo(n,γ )95 Mo 95 Ru(β + )95 Tc 95 Ru(β + )95 Tc 96 Rb−97 Rb.742 93 Rb.258 1.0 86 Sr(p,t)84 Sr 5.3 87 Sr(n,γ )88 Sr 1.3 1.0 11.5 91 3.8 5.9 12.3 7.6 90 6.9 15.1 2.9 13.3 8.3 91 21.7 6.3 10.3 94 26.1 11.2 93 4.3 10.7 12.0 7.1 94 6.6 13.1 3.2 12.1 17.3 C7 94 88 Rb−93 Rb.489 Rb(β − )89 Sr 89 Y(p,γ )90 Zr 89 89 Rb.511 Sr(β − )90 Y Y(p,γ )90 Zr 91 Rb−93 Rb.489 89 Rb.511 92 Rb(β − n)91 Sr 89 Y(β − )91 Zr Rb(β − n)91 Sr 92 Sr(β − )92 Y 94 Zr(d,α )92 Y 92 Zr(p,n)92 Nb 92 Mo 35 Cl−92 Mo 37 Cl Rb(β − n)92 Sr 93 Sr(β − )93 Y 93 93 Zr(β − )93 Nb Nb(γ ,n)92 Nb Rb−95 Rb.660 Rb(β − )94 Sr 96 Zr(d,α )94 Y C7 H10 −94 Zr 92 Rb.341 92 Rb.341 92 Rb.258 94 H10 −94 Mo Rb−95 Rb.660 95 Rb(β − )95 Sr 96 Zr(t,α )95 Y 96 Zr(d,t)95 Zr 9.3 95 Nb(β − )95 Mo 19.0 95 Rb−96 Rb.742 410 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Nucleus Infl. Equation Infl. Equation 96 71.9 82.0 54.8 62.1 79.3 61.2 89.6 96.5 55.5 75.6 44.8 52.9 80.4 95.5 96.1 97.5 55.2 57.4 86.2 73.8 91.4 99.3 99.5 99.8 66.4 58.4 45.4 94.2 50.7 57.6 54.6 82.0 82.8 86.7 77.2 59.9 80.0 75.4 50.2 92.3 83.0 79.9 92.3 62.3 72.5 64.6 99.8 82.4 81.9 57.9 51.0 47.5 79.6 99.4 48.8 79.4 89.0 82.4 90.3 91.2 66.8 96 Sr(β − )96 Y Y(β − )96 Zr 96 Zr(n,γ )97 Zr 96 Mo(n,γ )97 Mo C7 H12 −96 Ru 97 Rb(β − )97 Sr 97 Sr(β − )97 Y 97 Y(β − )97 Zr 97 Zr(β − )97 Nb 97 Nb(β − )97 Mo 97 Mo(n,γ )98 Mo 96 Mo(3 He,d)97 Tc 98 Rb(β − )98 Sr 98 Sr(β − )98 Y 98 Y(β − )98 Zr 96 Zr(t,p)98 Zr 97 Mo(n,γ )98 Mo 99 Tc(p,d)98 Tc C7 H14 −98 Ru 99 Rb(β − )99 Sr 99 Sr(β − )99 Y 99 Y(β − )99 Zr 99 Zr(β − )99 Nb 100 Mo(d,3 He)99 Nb 98 Mo(n,γ )99 Mo 99 Mo(β − )99 Tc 99 Tc(β − )99 Ru 99 Rh(β + )99 Ru 99 Pd(β + )99 Rh 100 Mo 35 Cl−98 Mo 37 Cl 99 Ru(n,γ )100 Ru 100 Rh(β + )100 Ru 102 Pd(p,t)100 Pd 100 Ag(β + )100 Pd 100 Cd(β + )100 Ag 100 Ru(n,γ )101 Ru 104 Ru(d,α )102 Tc 101 Ru(n,γ )102 Ru 102 Rh(β + )102 Ru 102 Pd(n,γ )103 Pd 102 Ru(n,γ )103 Ru 103 Ru(β − )103 Rh 103 Pd(ε )103 Rh 103 Cd(β + )103 Ag 106 Cd(3 He,6 He)103 Cd 104 Ru(d,t)103 Ru−148 Gd()147 Gd 106 Cd(p,t)104 Cd 104 In(β + )104 Cd 104 Ru(n,γ )105 Ru 105 Ru(β − )105 Rh 105 Pd(n,γ )106 Pd 107 Ag(p,t)105 Ag 105 Cd(β + )105 Ag 105 In(β + )105 Cd 105 Pd(n,γ )106 Pd 106 Ag(ε )106 Pd C8 H10 −106 Cd 106 In(β + )106 Cd 106 Sn(β + )106 In 108 Pd(d,3 He)107 Rh 106 Pd(n,γ )107 Pd 28.1 18.0 43.0 30.4 7.4 14.8 10.4 3.5 44.4 24.4 37.4 47.1 19.6 4.5 3.9 2.5 33.4 28.7 7.8 15.9 8.6 0.7 0.5 0.2 33.6 40.0 45.3 5.8 49.3 35.8 39.7 18.0 17.0 13.3 22.8 24.6 20.0 16.9 49.8 6.8 10.4 13.3 7.0 37.7 27.5 18.0 0.2 17.6 18.1 42.1 47.3 34.6 20.1 0.6 32.7 12.2 4.4 17.1 9.7 8.8 32.2 96 Sr Y 96 Zr 96 Mo 96 Ru 97 Rb 97 Sr 97 Y 97 Zr 97 Nb 97 Mo 97 Tc 98 Rb 98 Sr 98 Y 98 Zr 98 Mo 98 Tc 98 Ru 99 Rb 99 Sr 99 Y 99 Zr 99 Nb 99 Mo 99 Tc 99 Ru 99 Rh 99 Pd 100 Mo 100 Ru 100 Rh 100 Pd 100 Ag 100 Cd 101 Ru 102 Tc 102 Ru 102 Rh 102 Pd 103 Ru 103 Rh 103 Pd 103 Ag 103 Cd 104 Ru 104 Cd 104 In 105 Ru 105 Rh 105 Pd 105 Ag 105 Cd 105 In 106 Pd 106 Ag 106 Cd 106 In 106 Sn 107 Rh 107 Pd 96 96 Rb(β − )96 Sr Sr(β − )96 Y 96 Zr(d,t)95 Zr 95 Mo(n,γ )96 Mo 96 Ru(16 O,12 C)100 Pd 97 Rb−98 Rb.660 95 Rb.340 97 Rb(β − )97 Sr 97 Sr(β − )97 Y 96 Zr(n,γ )97 Zr 97 Zr(β − )97 Nb 96 Mo(n,γ )97 Mo 97 Mo(p,n)97 Tc 97 Rb−98 Rb.660 95 Rb.340 98 Rb(β − )98 Sr 98 Sr(β − )98 Y 98 Y(β − )98 Zr 98 Mo(n,γ )99 Mo 97 Mo(3 He,d)98 Tc 98 Tc(β − )98 Ru 97 Rb−99 Rb.490 95 Rb.511 99 Rb(β − )99 Sr 99 Sr(β − )99 Y 99 Y(β − )99 Zr 99 Zr(β − )99 Nb 99 Mo(β − )99 Tc 99 Tc(β − )99 Ru 99 Ru(n,γ )100 Ru 99 Pd(β + )99 Rh 96 Ru(16 O,13 C)99 Pd C7 H16 −100 Mo 100 Ru(n,γ )101 Ru 100 Rh−C8.333 96 Ru(16 O,12 C)100 Pd 100 Cd(β + )100 Ag 100 Cd−C8.333 101 Ru(n,γ )102 Ru 100 Mo(3 He,p)102 Tc 102 Ru(n,γ )103 Ru 102 Rh(β − )102 Pd 102 Rh(β − )102 Pd 104 Ru(d,t)103 Ru−148 Gd()147 Gd C8 H7 −103 Rh 102 Pd(n,γ )103 Pd 103 Ag(β + )103 Pd 103 Cd(β + )103 Ag 104 Ru(n,γ )105 Ru 104 In(β + )104 Cd 105 In−104 In 105 Ru(β − )105 Rh 105 Rh(β − )105 Pd 105 Rh(β − )105 Pd 105 Ag(ε )105 Pd 106 Cd(3 He,α )105 Cd 105 In−104 In 106 Pd(n,γ )107 Pd 105 Pd(3 He,d)106 Ag 106 Cd(3 He,α )105 Cd 106 In−C8.833 107 Sn−106 Sn 107 Rh(β − )107 Pd 107 Pd(β − )107 Ag Infl. Equation 1.1 7.5 7.2 11.1 96 0.1 97 96 Zr(d,α )94 Y C7 H12 −96 Mo 96 Ru(16 O,13 C)99 Pd 96 Rb−97 Rb.742 93 Rb.258 Y(β − )97 Zr 12.8 C5 H5 O2 −97 Mo 8.6 11.2 5.9 10.3 C5 98 H6 O2 −98 Mo Mo(p,n)98 Tc 99 Ru−98 Ru 97 Rb−99 Rb.653 93 Rb.348 1.7 8.3 99 Tc(p,d)98 Tc C7 H15 −99 Ru 6.5 5.4 100 0.2 100 Mo(3 He,p)102 Tc C7 H16 −100 Ru Ag(β + )100 Pd 15.5 C8 H5 −101 Ru 7.3 C8 H6 −102 Ru 1.0 6.6 6.8 0.7 102 Pd(p,t)100 Pd Ru(β − )103 Rh 103 Pd(ε )103 Rh 103 Ag(β + )103 Pd 103 15.7 C8 H8 −104 Ru 1.3 17.9 0.3 105 16.5 8.4 3.5 0.5 C8 107 0.9 107 Ag(ε )105 Pd Cd(β + )105 Ag 105 In(β + )105 Cd 105 H10 −106 Pd Ag(p,d)106 Ag 106 In(β + )106 Cd 106 Sn(β + )106 In Rh(β − )107 Pd G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Nucleus 107 Ag Cd 107 In 107 Sn 108 Pd 108 Cd 108 In 108 Sn 109 Pd 109 Ag 109 Cd 109 In 110 Ru 110 Rh 110 Pd 110 Ag 110 Cd 111 Cd 111 In 112 Pd 112 Ag 112 Cd 112 In 112 Sn 113 Rh 113 Pd 113 Ag 113 Cd 113 In 113 Sn 114 Pd 114 Ag 114 Cd 114 In 114 Sn 115 Cd 115 In 115 Sn 116 Cd 116 Sn 116 Sb 117 In 117 Sn 117 Sb 117 Cs 117 Csx 118 In 118 Sn 118 Cs 118 Csx 119 In 119 Sn 119 Sb 120 Sn 120 Te 121 Sn 121 Sb 121 Te 121 I 122 Sn 122 Sb 107 Infl. 49.7 96.3 83.4 59.6 91.3 67.9 82.2 54.3 91.3 70.5 84.7 53.0 55.1 41.6 49.3 70.6 68.2 59.7 77.4 60.4 69.7 40.2 57.8 79.9 59.9 84.9 97.2 58.1 81.6 45.0 65.4 50.3 70.6 72.4 70.4 87.3 48.2 78.0 43.5 76.6 73.3 94.5 61.6 80.0 100.0 100.0 100.0 63.8 100.0 100.0 86.7 54.9 59.0 69.6 64.3 43.0 62.2 74.3 83.1 49.2 46.5 Equation Infl. Equation Pd(β − )107 Ag Cd(β + )107 Ag 107 In(β + )107 Cd 108 Sn−107 Sn 108 Pd(n,γ )109 Pd C8 H12 −108 Cd 108 In(β + )108 Cd 108 Sn(β + )108 In 109 Pd(β − )109 Ag 109 Ag(n,γ )110 Ag 109 Cd(ε )109 Ag 109 In(β + )109 Cd 110 Ru−C9.167 110 Rh−C9.167 110 Pd(p,t)108 Pd 110 Ag(β − )110 Cd 110 Cd(n,γ )111 Cd 111 Cd(n,γ )112 Cd 113 In(p,t)111 In−112 Cd()110 Cd 110 Pd(t,p)112 Pd 112 Ag(β − )112 Cd 112 Cd(d,p)113 Cd 112 Cd(p,n)112 In 112 Sn(n,γ )113 Sn 113 Rh(β − )113 Pd 113 Pd(β − )113 Ag 113 Ag(β − )113 Cd 112 Cd(d,p)113 Cd 113 In(n,γ )114 In 113 Sn(β + )113 In 116 Cd(14 C,16 O)114 Pd 114 Pd(β − )114 Ag 113 Cd(n,γ )114 Cd 114 In(β − )114 Sn 114 Sn(n,γ )115 Sn 114 Cd(d,p)115 Cd 115 In(γ ,n)114 In 115 Sn(n,γ )116 Sn 116 Cd 35 Cl−114 Cd 37 Cl 116 Sn(n,γ )117 Sn 116 Sn(p,n)116 Sb 117 In(β − )117 Sn 117 Sn(n,γ )118 Sn 116 Sn(3 He,d)117 Sb 117 Cs−133 Cs.880 117 Csx (IT)117 Cs 119 Sn(t,α )118 In−118 Sn()117 In 118 Sn(n,γ )119 Sn 118 Csx (IT)118 Cs 118 Csx −133 Cs.887 120 Sn(t,α )119 In−118 Sn()117 In 120 Sn(d,t)119 Sn 118 Sn(3 He,d)119 Sb 120 Sn(n,γ )121 Sn 122 Te(p,t)120 Te 121 Sn(β − )121 Sb 121 Sb(n,γ )122 Sb 121 Te(β + )121 Sb 120 Te(3 He,d)121 I 122 Sn(n,γ )123 Sn 122 Sb(β − )122 Te 35.0 3.7 16.6 40.4 6.1 27.1 11.4 44.4 8.7 10.7 15.3 47.0 44.9 33.3 26.9 29.4 23.5 31.7 13.2 39.6 30.3 40.0 42.2 20.1 40.1 15.1 2.8 29.4 6.9 38.5 34.6 49.7 10.6 18.0 25.5 7.4 41.3 23.4 21.8 22.0 26.7 5.5 22.9 20.0 C8 107 36.1 117 13.3 35.3 41.0 23.2 21.4 29.9 22.0 25.7 13.7 39.9 37.7 120 107 107 H11 −107 Ag In(β + )107 Cd 107 In−C8.917 107 Sn−106 Sn C8 H12 −108 Pd 108 Cd(3 He,d)109 In−110 Cd()111 In 108 In−C9 108 Sn−C9 108 Pd(n,γ )109 Pd C8 H13 −109 Ag 109 In(β + )109 Cd 108 Cd(3 He,d)109 In−110 Cd()111 In 110 Ru(β − )110 Rh 110 Ru(β − )110 Rh C8 H14 −110 Pd 109 Ag(n,γ )110 Ag 110 Ag(β − )110 Cd 110 Cd(n,γ )111 Cd 108 Cd(3 He,d)109 In−110 Cd()111 In 112 Pd(β − )112 Ag 112 Pd(β − )112 Ag 111 Cd(n,γ )112 Cd 112 In(β − )112 Sn 112 In(β − )112 Sn 113 Rh−C9.417 113 Rh(β − )113 Pd 113 Pd(β − )113 Ag 113 Cd(n,γ )114 Cd 113 Cd(β − )113 In 114 Sn(d,t)113 Sn 114 Pd(β − )114 Ag 114 Ag(β − )114 Cd 114 Cd(d,p)115 Cd 113 In(n,γ )114 In 114 In(β − )114 Sn 115 Cd(β − )115 In 115 Cd(β − )115 In 114 Sn(n,γ )115 Sn C9 H8 −116 Cd 115 Sn(n,γ )116 Sn 115 Sn(3 He,d)116 Sb−120 Sn()121 Sb 120 Sn(t,α )119 In−118 Sn()117 In 116 Sn(n,γ )117 Sn 117 Sn(p,n)117 Sb Sn(n,γ )118 Sn Sn(d,3 He)119 In Sn(n,γ )119 Sn 119 Sb(ε )119 Sn 120 Sn(d,t)119 Sn C9 H12 −120 Te 120 Sn(n,γ )121 Sn 121 Sn(β − )121 Sb 121 I(β + )121 Te 121 I−C10.083 122 Sn(d,t)121 Sn 121 Sb(n,γ )122 Sb 118 Infl. 411 Equation 7.8 109 Ag(p,t)107 Ag 2.0 5.0 6.4 1.4 110 9.5 109 Cd(ε )109 Ag 25.1 13.5 110 Rh(β − )110 Pd Cd(14 C,16 O)110 Pd 8.4 8.6 9.3 108 8.6 C8 H16 −112 Cd Pd(p,t)108 Pd In(β + )108 Cd 108 Sn(β + )108 In 108 Sn−107 Sn 108 112 Cd(3 He,d)109 In−110 Cd()111 In C8 H15 −111 Cd 113 In(p,t)111 In−115 In()113 In H5 −113 Cd Sn(β + )113 In 112 Sn(n,γ )113 Sn 8.7 5.6 16.5 C9 113 8.2 9.6 4.1 5.3 10.6 C8 115 20.9 1.4 116 15.4 C 35 Cl3 −117 Sn H18 −114 Cd In(γ ,n)114 In 114 Sn(d,t)113 Sn 116 Cd(γ ,n)115 Cd 113 In(p,t)111 In−115 In()113 In 116 Cd(γ ,n)115 Cd Sn(p,n)116 Sb 0.1 118 Sn(3 He,d)119 Sb 9.8 121 Sb 35 Cl−119 Sn 37 Cl 5.0 14.3 27.1 6.5 13 C 35 Cl2 37 Cl−120 Sn Te(3 He,d)121 I 122 Sn(d,t)121 Sn C9 H13 −121 Sb 3.1 10.9 15.8 121 120 I(β + )121 Te Sn 35 Cl−122 Sn 37 Cl 123 Sb(γ ,n)122 Sb 124 412 Nucleus 122 Te Cs 123 Sn 123 Sb 123 Te 123 I 123 Xe 124 Sn 124 Sb 124 Te 124 Xe 125 Te 125 Xe 125 Cs 126 Te 126 I 127 Te 127 I 127 Xe 127 Cs 128 Te 128 I 128 Xe 128 Cs 128 Ba 129 Te 129 I 129 Xe 129 Cs 129 Ba 130 Sn 130 Sb 130 Te 130 I 130 Xe 130 Cs 130 Ba 131 Sn 131 Sb 131 Te 131 Xe 131 Cs 131 Ba 132 Sn 132 Sb 132 Te 132 I 132 Xe 132 Cs 132 Ba 132 Ce 133 Cs 133 Ba 134 Cs 134 Ba 135 I 135 Xe 135 Cs 135 Ba 136 Te 136 I 122 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Infl. 91.8 58.1 45.2 78.7 92.0 96.2 62.0 70.5 78.7 29.7 57.3 83.0 98.8 70.5 83.0 50.0 98.0 32.9 91.5 81.6 56.9 87.9 76.7 79.4 82.5 91.8 51.5 59.5 82.9 51.5 94.9 85.6 79.7 90.2 56.8 47.7 77.6 55.3 62.5 99.8 73.2 60.2 89.1 66.2 54.2 93.9 95.8 73.0 90.2 98.8 54.2 82.8 99.0 100.0 99.2 94.0 97.8 99.9 99.2 80.1 74.0 Equation Infl. Equation Te(n,γ )123 Te Cs−133 Cs.917 122 Sn(n,γ )123 Sn 123 Sb(n,γ )124 Sb 123 Te(n,γ )124 Te 122 Te(3 He,d)123 I 123 Xe−133 Cs.925 124 Sn−13 C 37 Cl3 124 Sb(β − )124 Te 124 Sn−124 Te 124 Xe−54 Fe 35 Cl2 124 Te(n,γ )125 Te 124 Xe(n,γ )125 Xe 125 Cs−133 Cs.940 125 Te(n,γ )126 Te 127 I(γ ,n)126 I 126 Te(n,γ )127 Te 127 I(γ ,n)126 I 127 Xe(ε )127 I 127 Cs−133 Cs.955 128 Te−128 Xe 127 I(n,γ )128 I C10 H8 −128 Xe 128 Cs(β + )128 Xe 128 Ba−133 Cs.962 128 Te(n,γ )129 Te 129 Te(β − )129 I 129 Xe−C2 35 Cl3 129 Cs(β + )129 Xe 130 Ba(d,t)129 Ba 130 Sn−C10.833 130 Sn(β − )130 Sb 130 Te 35 Cl−128 Te 37 Cl 129 I(n,γ )130 I 129 Xe(n,γ )130 Xe 130 Cs−133 Cs.977 130 Ba−85 Rb1.529 131 Sn(β − )131 Sb 131 Sb(β − )131 Te 130 Te(n,γ )131 Te 131 Xe−C2 35 Cl2 37 Cl 131 Cs(ε )131 Xe 130 Ba(n,γ )131 Ba 132 Sn−C11 132 Sn(β − )132 Sb 132 Te(β − )132 I 132 I(β − )132 Xe 131 Xe(n,γ )132 Xe 133 Cs(γ ,n)132 Cs 132 Ba(n,γ )133 Ba 132 Ce−C11 133 Cs−C3 O6 133 Ba(ε )133 Cs 133 Cs(n,γ )134 Cs 134 Cs(β − )134 Ba 135 I(β − )135 Xe 135 Xe(β − )135 Cs 134 Cs(n,γ )135 Cs 134 Ba(n,γ )135 Ba 136 Te(β − n)135 I 136 I(β − )136 Xe 7.1 41.9 43.5 12.5 8.0 3.8 38.0 24.2 21.3 25.1 24.6 17.0 1.2 29.5 9.6 50.0 2.0 22.3 8.5 18.4 15.8 12.1 20.5 20.6 17.5 8.2 38.8 39.2 12.5 48.5 5.1 14.4 20.0 9.7 21.2 34.8 10.8 44.7 37.5 0.2 25.9 25.0 6.2 33.8 45.8 6.1 4.2 24.5 9.8 1.2 45.8 17.2 1.0 122 0.8 5.6 2.2 0.1 0.8 19.9 26.0 134 122 122 Sb(β − )122 Te Cs−C10.167 124 Sn(d,t)123 Sn 123 Sb(γ ,n)122 Sb 122 Te(n,γ )123 Te 123 Xe(β + )123 I 123 Xe(β + )123 I 124 Sn−124 Te 123 Sb(n,γ )124 Sb 124 Te−13 C 37 Cl3 124 Xe−13 C 37 Cl3 125 Te(n,γ )126 Te 125 Cs(β + )125 Xe 125 Cs(β + )125 Xe 128 Te 35 Cl−126 Te 37 Cl 126 I(β + )126 Te 127 Te(β − )127 I 127 Te(β − )127 I 127 Cs(β + )127 Xe 127 Cs(β + )127 Xe 130 Te 35 Cl−128 Te 37 Cl 128 I(β − )128 Xe 128 Te−128 Xe 128 Cs−133 Cs.962 130 Ba(p,t)128 Ba 129 Te(β − )129 I 129 I(β − )129 Xe 129 Xe(n,γ )130 Xe 129 Cs−133 Cs.970 129 Ba(β + )129 Cs 130 Sn(β − )130 Sb 130 Sb(β − )130 Te 130 Te−130 Xe 130 I(β − )130 Xe 13 C C8 N H7 −130 Xe 130 Cs(β + )130 Xe 130 Ba(n,γ )131 Ba 131 Sn−C10.917 131 Sn(β − )131 Sb 131 Sb(β − )131 Te 131 Xe(n,γ )132 Xe 131 Ba(β + )131 Cs 131 Ba(β + )131 Cs 132 Sn(β − )132 Sb 132 Sb(β − )132 Te 132 Sb(β − )132 Te 132 Te(β − )132 I 132 Xe−C 13 C 35 Cl2 37 Cl 132 Cs(β + )132 Xe 132 Ba−130 Ba 132 Ce O−142 Sm1.042 133 Cs−C10 H12 132 Ba(n,γ )133 Ba Infl. Equation 0.6 122 Te(3 He,d)123 I 11.3 5.3 123 Sn(β − )123 Sb Sn(β − )123 Sb 4.2 124 Sn(d,t)123 Sn 17.0 16.9 124 Te(n,γ )125 Te Xe−124 Te 3.0 128 122 Ba(n,γ )135 Ba Xe(d,3 He)135 I 135 I(β − )135 Xe 135 Xe(β − )135 Cs 135 Ba(n,γ )136 Ba 136 Te(β − )136 I 136 Te(β − )136 I 136 123 124 Te 35 Cl−126 Te 37 Cl 19.9 C10 H7 −127 I 14.6 128 Te 35 Cl−126 Te 37 Cl 1.7 128 I(β − )128 Xe 9.7 0.9 4.6 129 0.2 130 19.3 17.4 8.9 130 0.9 14.8 4.6 131 2.4 132 Cs(β + )132 Xe 0.4 136 Te(β − n)135 I I(n,γ )130 I I(β − )129 Xe 129 Ba(β + )129 Cs 129 Te(n,γ )131 Te Xe−C 13 C 35 Cl3 Xe(3 He,d)130 Cs 132 Ba−130 Ba 129 Cs(ε )131 Xe Cs−133 Cs.985 131 Ba−133 Cs.985 131 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Nucleus 136 Xe Ba 136 Ce 136 Pr 137 Cs 137 Ba 137 Ce 137 Pr 137 Nd 137 Pmm 137 Sm 138 Cs 138 Ba 138 Ce 139 Ba 139 La 139 Ce 139 Pr 139 Nd 139 Pm 140 Cs 140 Ba 140 La 140 Ce 141 Cs 141 Ba 141 La 141 Ce 141 Pr 141 Sm 141 Eu 142 Cs 142 Ba 142 La 142 Ce 142 Pr 142 Nd 142 Sm 143 Cs 143 Ba 143 La 143 Ce 143 Pr 143 Nd 143 Pm 143 Sm 144 Cs 144 Ba 144 La 144 Ce 144 Pr 144 Nd 144 Pm 144 Sm 144 Eu 145 Cs 145 Pr 145 Nd 145 Pm 145 Sm 145 Eu 136 Infl. 60.1 99.2 62.5 77.0 99.9 99.1 62.5 71.2 77.5 69.9 77.5 50.7 99.2 67.6 99.2 58.7 98.4 98.2 61.6 93.1 79.1 37.3 58.8 46.2 49.9 63.3 94.6 53.7 52.9 48.8 81.9 50.6 54.1 70.4 67.4 52.9 62.3 18.9 68.9 79.0 79.8 66.8 83.7 37.6 59.6 100.0 56.5 91.3 53.1 99.9 99.9 65.8 50.1 43.1 46.8 94.1 50.0 71.3 37.0 71.5 88.8 Equation Infl. Equation H16 −136 Xe Ba(n,γ )136 Ba 136 Ce(n,γ )137 Ce 136 Pr−133 Cs1.023 137 Cs(β − )137 Ba 136 Ba(n,γ )137 Ba 137 Pr(β + )137 Ce 137 Pr−133 Cs1.030 137 Nd−133 Cs1.030 137 Pmm (β + )137 Nd 137 Sm−C11.417 138 Cs(β − )138 Ba 137 Ba(n,γ )138 Ba 138 Ce(t,p)140 Ce 138 Ba(n,γ )139 Ba 139 Ba(β − )139 La 139 Ce(ε )139 La 139 Pr(β + )139 Ce 139 Pm(β + )139 Nd 139 Pm−133 Cs1.045 140 Cs−133 Cs1.053 140 Ba(β − )140 La 139 La(n,γ )140 La 140 Ce(n,γ )141 Ce 141 Cs−133 Cs1.060 141 Ba−133 Cs1.060 141 La(β − )141 Ce 140 Ce(n,γ )141 Ce 141 Pr(n,γ )142 Pr 144 Sm(3 He,6 He)141 Sm 141 Eu−133 Cs1.060 142 Cs−133 Cs1.068 142 Ba(β − )142 La 142 La(β − )142 Ce 142 Ce(n,γ )143 Ce 142 Pr(β − )142 Nd 142 Nd(n,γ )143 Nd 142 Sm−133 Cs1.068 143 Cs(β − )143 Ba 143 Ba−133 Cs1.075 143 La(β − )143 Ce 143 Ce(β − )143 Pr 143 Pr(β − )143 Nd 142 Nd(n,γ )143 Nd 143 Nd(3 He,d)144 Pm−142 Nd()143 Pm 144 Sm(p,d)143 Sm−148 Gd()147 Gd 144 Cs(β − )144 Ba 144 Ba−133 Cs1.083 144 La(β − )144 Ce 144 Ce(β − )144 Pr 144 Pr(β − )144 Nd 143 Nd(n,γ )144 Nd 144 Nd(3 He,d)145 Pm−143 Nd()144 Pm 144 Sm−144 Nd 144 Eu−133 Cs1.083 145 Cs−133 Cs1.090 145 Pr(β − )145 Nd 144 Nd(n,γ )145 Nd 144 Nd(3 He,d)145 Pm−143 Nd()144 Pm 144 Sm(n,γ )145 Sm 144 Sm(3 He,d)145 Eu 34.4 0.8 29.8 23.0 0.1 0.8 37.5 24.3 16.9 30.1 22.5 49.3 0.7 28.0 0.8 41.1 1.6 1.8 26.1 6.9 20.9 37.2 39.0 44.7 36.5 20.3 5.4 44.8 47.1 43.8 18.1 42.1 36.8 29.6 17.5 47.1 28.7 13.9 18.0 13.8 20.2 32.6 16.3 34.2 22.7 136 32.7 6.8 46.9 0.1 0.1 27.5 29.5 27.9 38.2 2.8 50.0 27.9 26.4 13.4 11.2 144 C10 135 Xe(3 He,d)137 Cs Ba(n,γ )137 Ba 136 Pr(β + )136 Ce 136 Pr(β + )136 Ce 136 Xe(3 He,d)137 Cs 137 Ba(n,γ )138 Ba 136 Ce(n,γ )137 Ce 137 Pr(β + )137 Ce 137 Nd−C11.417 137 Sm(β + )137 Pmm 137 Sm(β + )137 Pmm 138 Cs−133 Cs1.038 138 Ba(n,γ )139 Ba 140 Ce−138 Ce 139 Ba(β − )139 La 139 La(n,γ )140 La 139 Pr(β + )139 Ce 139 Nd(β + )139 Pr 139 Nd(β + )139 Pr 139 Pm(β + )139 Nd 140 Cs(β − )140 Ba 140 Ba−133 Cs1.053 140 La(β − )140 Ce 140 La(β − )140 Ce 141 Cs(β − )141 Ba 141 Ba(β − )141 La 141 Ba(β − )141 La 141 Ce(β − )141 Pr 141 Ce(β − )141 Pr 141 Sm−133 Cs1.060 141 Eu(β + )141 Sm 142 Cs(β − )142 Ba 142 Ba−133 Cs1.068 142 Ba(β − )142 La 140 Ce(t,p)142 Ce 141 Pr(n,γ )142 Pr 142 Pr(β − )142 Nd 158 Yb−142 Sm1.113 143 Cs−144 Cs.662 141 Cs.338 143 Ba(β − )143 La 143 Ba(β − )143 La 142 Ce(n,γ )143 Ce 143 Ce(β − )143 Pr 143 Nd(n,γ )144 Nd 142 Nd(3 He,d)143 Pm 413 Infl. Equation 5.2 136 Xe(d,3 He)135 I 7.8 138 Ce−136 Ce 0.1 137 Cs(β − )137 Ba 4.5 4.3 137 Nd(β + )137 Pr Nd(β + )137 Pr 0.1 4.4 138 0.2 139 Ce(ε )139 La 12.3 139 Nd−C11.583 19.3 2.2 5.9 11.4 16.4 140 1.5 141 La(β − )141 Ce 7.5 141 Eu(β + )141 Sm 7.0 9.1 142 142 Cs−143 Cs.497 Cs(β − )142 Ba 8.9 142 Ce−140 Ce 6.3 12.4 9.0 7.2 175 0.6 143 La(β − )143 Ce 20.0 17.6 176 Lu 37 Cl−143 Nd 35 Cl2 Eu(α )143 Pm 8.5 1.9 143 5.6 19.6 10.9 15.0 1.5 144 0.7 18.3 8.3 145 136 Cs−145 Cs.662 142 Cs.338 Cs(β − )144 Ba 144 Ba(β − )144 La 144 La(β − )144 Ce 144 Ce(β − )144 Pr 144 Nd(n,γ )145 Nd 143 Nd(3 He,d)144 Pm−142 Nd()143 Pm 144 Sm(n,γ )145 Sm 144 Eu(β + )144 Sm 145 Cs−147 Cs.493 143 Cs.507 146 Nd(d,3 He)145 Pr 145 Nd(n,γ )146 Nd 145 Sm(ε )145 Pm 145 Sm(ε )145 Pm 149 Tb(α )145 Eu 144 137 138 Cs(β − )138 Ba Ce−136 Ce Cs(β − )140 Ba Ba(β − )140 La 140 Ce(t,p)142 Ce 141 Cs(β − n)140 Ba 141 Cs(β − )141 Ba 140 141 Cs.504 Lu 37 Cl−142 Nd 35 Cl2 Sm(p,t)142 Sm 142 Cs−143 Cs.497 141 Cs.504 143 Cs(β − )143 Ba 144 147 144 Cs−144 Cs.662 Ba(β − )144 La 141 Cs.338 Sm−144 Nd Nd(3 He,d)144 Pm 148 Gd(α )144 Sm 144 Eu−C12 144 Cs−145 Cs.662 142 Cs.338 143 Pm(ε )145 Nd Nd(3 He,d)145 Pm 146 Sm(3 He,α )145 Sm 144 414 Nucleus 146 Cs Ba 146 La 146 Ce 146 Pr 146 Nd 146 Sm 146 Eu 146 Gd 146 Tb 146 Dy 147 Cs 147 Nd 147 Pm 147 Sm 147 Eu 147 Gd 148 Cs 148 Nd 148 Sm 148 Eu 148 Gd 148 Tb 148 Dy 149 Nd 149 Pm 149 Sm 149 Eu 149 Gd 149 Tb 149 Dy 150 Nd 150 Sm 150 Eu 150 Gd 150 Tb 150 Dy 150 Ho 150 Er 151 Pm 151 Sm 151 Eu 151 Gd 151 Tb 152 Nd 152 Pm 152 Sm 152 Eu 153 Pm 153 Sm 153 Eu 153 Gd 153 Tb 153 Dy 153 Er 154 Sm 154 Eu 154 Gd 154 Dy 154 Er 155 Eu 146 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Infl. 41.5 51.5 58.1 69.8 76.1 71.9 46.8 45.3 91.2 81.0 94.1 79.2 77.1 57.7 55.8 54.8 83.6 100.0 60.3 64.1 53.4 89.2 88.0 93.4 98.7 47.2 64.3 53.3 50.6 83.6 40.1 58.2 40.9 53.9 39.3 80.5 90.4 53.3 62.1 77.1 58.6 55.3 84.4 50.8 66.3 51.3 44.5 59.4 52.1 100.0 74.0 97.4 58.1 51.8 78.2 65.5 72.9 49.7 81.4 90.5 91.6 Equation Infl. Equation Infl. Equation Cs(β − )146 Ba Cs(β − )146 Ba 146 La(β − )146 Ce 146 Ce(β − )146 Pr 146 Pr(β − )146 Nd 145 Nd(n,γ )146 Nd 146 Sm(α )142 Nd 146 Eu(β + )146 Sm 148 Gd(p,t)146 Gd 146 Tb(β + )146 Gd 146 Dy−C12.167 147 Cs−133 Cs1.105 146 Nd(n,γ )147 Nd 147 Nd(β − )147 Pm 147 Pm(β − )147 Sm 147 Eu(β + )147 Sm 148 Gd(p,d)147 Gd−148 Sm()147 Sm 145 Cs−148 Cs.392 143 Cs.608 148 Nd 35 Cl−146 Nd 37 Cl 147 Sm(n,γ )148 Sm 148 Eu−133 Cs1.113 148 Gd(α )144 Sm 148 Dy(β + )148 Tb 148 Dy−C12.333 148 Nd(n,γ )149 Nd 149 Pm(β − )149 Sm 149 Sm(n,γ )150 Sm 151 Eu(p,t)149 Eu 149 Gd(α )145 Sm 149 Tb(α )145 Eu 149 Dy(β + )149 Tb 150 Nd−150 Sm 150 Sm(n,γ )151 Sm 150 Eu(β − )150 Gd 150 Gd(α )146 Sm 150 Tb(α )146 Eu 150 Dy(α )146 Gd 150 Ho−133 Cs1.128 150 Er(β + )150 Ho 150 Nd(3 He,d)151 Pm 150 Sm(n,γ )151 Sm 151 Sm(β − )151 Eu 151 Gd(ε )151 Eu 151 Tb(β + )151 Gd 150 Nd(t,p)152 Nd 152 Nd(β − )152 Pm 151 Sm(n,γ )152 Sm 151 Eu(n,γ )152 Eu 153 Pm(β − )153 Sm 152 Sm(n,γ )153 Sm 152 Eu(n,γ )153 Eu 153 Gd(n,γ )154 Gd 153 Tb(β + )153 Gd 153 Dy(β + )153 Tb 153 Er(α )149 Dy 154 Sm 35 Cl−152 Sm 37 Cl 153 Eu(n,γ )154 Eu 154 Gd(n,γ )155 Gd 154 Dy(α )150 Gd 154 Er(α )150 Dy 154 Eu(n,γ )155 Eu 37.8 48.5 41.9 30.2 23.9 22.8 28.5 23.4 8.6 19.0 5.9 20.8 22.6 42.3 33.0 17.9 12.9 145 Cs−146 Cs.662 143 Cs.338 Ba(β − )146 La 146 Ba(β − )146 La 146 La(β − )146 Ce 146 Ce(β − )146 Pr 146 Nd(n,γ )147 Nd 146 Sm(3 He,α )145 Sm 144 Sm(3 He,p)146 Eu 150 Dy(α )146 Gd 146 Dy(β + )146 Tb 146 Dy(β + )146 Tb 145 Cs−147 Cs.493 143 Cs.507 147 Nd(β − )147 Pm 147 Pm(β − )147 Sm 147 Sm(n,γ )148 Sm 147 Gd(β + )147 Eu 147 Gd(β + )147 Eu 20.7 145 2.6 12.4 19.9 0.2 149 0.3 148 9.0 15.7 3.5 149 16.6 17.1 35.9 8.1 12.0 6.6 1.3 42.2 13.8 28.4 22.0 10.9 28.7 28.4 30.5 46.1 37.2 19.5 7.2 26.7 37.9 22.9 25.5 40.1 15.6 49.2 33.7 48.7 20.6 25.8 47.9 148 11.3 9.8 10.7 2.0 148 10.6 13.6 13.4 19.2 5.5 21.4 9.6 21.5 149 11.8 150 Tb(β + )150 Gd 2.4 20.0 150 Ho(ε )150 Dy Er(β + )150 Ho 15.6 1.8 151 20.1 14.8 152 26.0 2.6 41.9 48.2 11.8 26.8 19.9 27.3 18.6 9.5 8.1 153 10.0 7.5 6.8 20.4 153 0.3 158 146 146 146 Nd(d,t)147 Nd Sm 35 Cl−148 Sm 37 Cl 148 Eu−142 Sm1.042 148 Gd(p,d)147 Gd−148 Sm()147 Sm 148 Tb(β + )148 Gd 148 Dy(β + )148 Tb 149 Nd(β − )149 Pm 148 Nd(3 He,d)149 Pm 148 Sm(n,γ )149 Sm 149 Gd(ε )149 Eu 153 Dy(α )149 Gd 149 Tb(β + )149 Gd 149 Dy−142 Sm1.049 150 Nd 35 Cl2 −146 Nd 37 Cl2 149 Sm(n,γ )150 Sm 151 Eu(p,d)150 Eu 150 Eu(β − )150 Gd 150 Tb(β + )150 Gd 154 Er(α )150 Dy 150 Ho(ε )150 Dy 150 Er−C12.5 151 Pm(β − )151 Sm 151 Sm(β − )151 Eu 151 Eu(n,γ )152 Eu 151 Tb(β + )151 Gd 151 Tb(α )147 Eu 152 Nd(β − )152 Pm 152 Pm(β − )152 Sm 154 Sm 35 Cl−152 Sm 37 Cl 152 Eu(n,γ )153 Eu 154 Sm(d,3 He)153 Pm 150 Eu(n,γ )154 Eu Tb(β + )153 Gd 153 Dy(β + )153 Tb 153 Dy(α )149 Gd 157 Yb(α )153 Er 154 Sm−154 Gd 154 Eu(β − )154 Gd 154 Eu(β − )154 Gd 154 Dy−133 Cs1.158 158 Yb(α )154 Er 155 Eu(β − )155 Gd Cs−146 Cs.497 144 Cs.503 Sm(n,α )146 Nd Sm(p,t)146 Sm 146 Eu−133 Cs1.098 146 Tb(β + )146 Gd 148 Nd(d,t)147 Nd Sm 35 Cl−147 Sm 37 Cl Eu(α )143 Pm 104 Ru(d,t)103 Ru−148 Gd()147 Gd 147 Nd 35 Cl2 −144 Nd 37 Cl2 Sm(n,γ )149 Sm 148 Eu(α )144 Pm 148 Gd(p,t)146 Gd 148 Nd(β − )149 Pm Sm 35 Cl−147 Sm 37 Cl 149 Eu(ε )149 Sm 149 Gd(ε )149 Eu 149 Dy(β + )149 Tb 153 Er(α )149 Dy 150 Nd−148 Nd 150 Sm 35 Cl−148 Sm 37 Cl 149 150 151 152 Sm(n,γ )152 Sm Eu(p,t)149 Eu Eu(β + )152 Sm Eu(β + )152 Sm 153 Er−C12.75 C12 H10 −154 Sm 154 Eu(n,γ )155 Eu 154 Sm−154 Gd Gd(t,α )157 Eu−156 Gd()155 Eu G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Nucleus 155 Gd Sm 156 Eu 156 Gd 156 Tb 156 Dy 157 Eu 157 Gd 157 Tb 157 Dy 157 Yb 158 Gd 158 Tb 158 Dy 158 Er 158 Tm 158 Yb 159 Eu 159 Gd 159 Tb 159 Dy 160 Gd 160 Tb 160 Dy 161 Tb 161 Dy 161 Ho 161 Hf 162 Dy 162 Ho 162 Er 163 Dy 163 Ho 163 Er 164 Dy 164 Ho 164 Er 165 Ho 165 Er 165 Tm 165 W 166 Ho 166 Er 167 Er 167 Tm 167 Yb 168 Er 168 Tm 168 Yb 169 Er 169 Tm 169 Yb 169 W 169 Re 170 Er 170 Tm 170 Yb 171 Er 171 Tm 171 Yb 171 Lu 156 Infl. Equation 49.7 86.4 67.8 61.4 100.0 54.0 88.7 58.6 94.0 65.9 83.6 69.9 36.6 66.0 81.4 81.4 69.7 100.0 92.6 19.5 68.3 26.7 94.3 77.0 77.0 52.4 100.0 65.0 93.3 100.0 47.3 51.5 58.3 59.4 48.0 67.1 38.1 39.0 56.1 49.7 79.9 61.0 62.5 39.7 99.1 90.1 60.0 100.0 54.2 92.4 46.9 54.2 69.5 72.0 59.2 52.3 76.5 68.8 93.2 73.1 69.0 Gd(n,γ )155 Gd Sm(β − )156 Eu 156 Eu(β − )156 Gd 155 Gd(n,γ )156 Gd 155 Gd(α ,t)156 Tb−158 Gd()159 Tb 158 Dy 35 Cl−156 Dy 37 Cl 158 Gd(t,α )157 Eu−156 Gd()155 Eu 156 Gd(n,γ )157 Gd 157 Tb(ε )157 Gd 158 Dy(d,t)157 Dy 157 Yb(α )153 Er 157 Gd(n,γ )158 Gd 157 Gd(α ,t)158 Tb−158 Gd()159 Tb 160 Dy(p,t)158 Dy 158 Er−C13.167 158 Tm−C13.167 158 Yb(α )154 Er 160 Gd(t,α )159 Eu−158 Gd()157 Eu 158 Gd(n,γ )159 Gd 159 Tb 35 Cl−157 Gd 37 Cl 159 Dy(ε )159 Tb 160 Gd 35 Cl−158 Gd 37 Cl 159 Tb(n,γ )160 Tb 160 Dy(n,γ )161 Dy 160 Tb(n,γ )161 Tb 161 Dy(n,γ )162 Dy 160 Dy(3 He,d)161 Ho−164 Dy()165 Ho 161 Hf−C13.417 162 Dy(n,γ )163 Dy 161 Dy(3 He,d)162 Ho−164 Dy()165 Ho 164 Er 35 Cl−162 Er 37 Cl 163 Dy(n,γ )164 Dy 163 Ho(ε )163 Dy 163 Er(β + )163 Ho 163 Dy(n,γ )164 Dy 163 Dy(3 He,d)164 Ho−164 Dy()165 Ho 164 Er(n,γ )165 Er 165 Ho(n,γ )166 Ho 164 Er(n,γ )165 Er 164 Er(α ,t)165 Tm−168 Er()169 Tm 165 W−C13.75 165 Ho(n,γ )166 Ho 166 Er(n,γ )167 Er 167 Er(n,γ )168 Er 166 Er(α ,t)167 Tm−168 Er()169 Tm 167 Yb(β + )167 Tm 167 Er(n,γ )168 Er 167 Er(α ,t)168 Tm−168 Er()169 Tm 168 Yb(n,γ )169 Yb 168 Er(n,γ )169 Er 169 Tm(n,γ )170 Tm 171 Yb(p,t)169 Yb 173 Os(α )169 W 173 m Ir (α )169 Re 170 Er(α ,t)171 Tm−168 Er()169 Tm 169 Tm(n,γ )170 Tm 170 Yb(n,γ )171 Yb 170 Er(n,γ )171 Er 171 Tm(β − )171 Yb 171 Yb(n,γ )172 Yb 170 Yb(α ,t)171 Lu−174 Yb()175 Lu 154 156 Infl. Equation Gd(n,γ )156 Gd Sm(t,p)156 Sm 154 Eu(t,p)156 Eu 156 Gd(n,γ )157 Gd 38.5 13.6 28.1 40.1 155 31.9 11.3 29.6 6.0 34.1 13.2 7.5 36.3 18.2 18.6 18.6 30.3 156 7.4 17.2 31.7 26.1 5.7 21.3 23.0 22.9 159 19.5 47.6 161 31.9 41.8 41.0 20.6 41.0 32.9 31.8 36.1 23.6 48.2 20.1 39.0 33.6 36.6 0.9 9.9 11.1 162 37.4 7.6 11.6 45.8 30.5 28.0 29.3 47.7 30.6 31.2 7.3 11.0 31.0 170 415 Infl. Equation 9.0 155 Eu(β − )155 Gd 4.1 1.2 156 Sm(β − )156 Eu Gd 35 Cl2 −156 Gd 37 Cl2 14.2 158 Dy(p,t)156 Dy 7.6 159 Tb 35 Cl−157 Gd 37 Cl 3.3 7.3 16.3 15.8 161 15.1 161 Dy 35 Cl−159 Tb 37 Cl 24.3 160 Gd−160 Dy 1.4 160 Dy(p,t)158 Dy 13.6 161 Dy 35 Cl−159 Tb 37 Cl 15.5 165 W(α )161 Hf 16.2 6.6 0.8 20.0 10.6 162 19.1 13.9 10.2 2.1 164 2.6 10.1 166 7.7 164 Er(α ,t)165 Tm−168 Er()169 Tm 8.5 168 Yb(d,t)167 Yb 10.2 169 Tm 35 Cl2 −165 Ho 37 Cl2 10.0 170 Er 35 Cl−168 Er 37 Cl 0.5 170 Yb(p,t)168 Yb 9.9 171 Lu(β + )171 Yb 154 Dy(d,p)157 Dy Eu(β − )157 Gd 157 Gd(n,γ )158 Gd 156 Gd(α ,t)157 Tb−158 Gd()159 Tb 156 Dy(d,p)157 Dy 157 Yb−C13.083 160 Gd(α ,t)161 Tb−158 Gd()159 Tb 159 Tb(d,t)158 Tb−164 Dy()163 Dy 160 Dy 35 Cl−158 Dy 37 Cl 158 Tm(β + )158 Er 158 Tm(β + )158 Er 158 Yb−142 Sm1.113 160 157 Gd(β − )159 Tb Gd(β − )159 Tb 161 Dy(p,t)159 Dy 160 Gd(α ,t)161 Tb−158 Gd()159 Tb 160 Tb(n,γ )161 Tb 160 Gd−160 Dy 160 Gd(α ,t)161 Tb−158 Gd()159 Tb 160 Dy(n,γ )161 Dy 159 161 Hf(α )157 Yb Dy(n,γ )162 Dy Er 35 Cl−160 Gd 37 Cl Ho(ε )163 Dy 162 Dy(3 He,d)163 Ho−164 Dy()165 Ho 164 Er(d,t)163 Er 162 Dy(3 He,d)163 Ho−164 Dy()165 Ho 165 Ho(γ ,n)164 Ho 166 Er 35 Cl−164 Er 37 Cl 162 Dy(3 He,d)163 Ho−164 Dy()165 Ho 167 Er(p,t)165 Er 165 Tm(β + )165 Er 165 W(α )161 Hf 166 Ho(β − )166 Er 166 Ho(β − )166 Er 166 Er(n,γ )167 Er 167 Yb(β + )167 Tm 168 Yb(d,t)167 Yb 170 Er(α ,t)171 Tm−168 Er()169 Tm 163 Yb(p,t)168 Yb Er(β − )169 Tm 170 Er(α ,t)171 Tm−168 Er()169 Tm 168 Yb(n,γ )169 Yb 169 W−C14.083 169 Re−C14.083 170 Er(n,γ )171 Er 170 Tm(β − )170 Yb 170 Tm(β − )170 Yb 171 Er(β − )171 Tm 171 Er(β − )171 Tm 170 Yb(n,γ )171 Yb 171 Lu(β + )171 Yb Hf(α )157 Yb Gd 35 Cl−158 Gd 37 Cl 158 Gd(d,t)157 Gd−159 Tb()158 Tb 158 Tb(β − )158 Dy 160 Er 35 Cl2 −158 Gd 37 Cl2 Dy(n,γ )163 Dy 163 Er(β + )163 Ho 162 Er(d,p)163 Er 158 Gd(α ,t)159 Tb−164 Dy()165 Ho 162 Er 35 Cl−162 Er 37 Cl Tm 35 Cl2 −165 Ho 37 Cl2 165 Tm(β + )165 Er 165 Tm−142 Sm1.162 169 169 Er 35 Cl−164 Er 37 Cl Tm 35 Cl−167 Er 37 Cl 169 416 Nucleus 171 Os Er 172 Tm 172 Yb 172 Lu 173 Yb 173 Lu 173 Os 173 m Ir 174 Yb 174 Lu 174 Hf 175 Yb 175 Lu 175 Hf 175 Ir 175 p Ir 175 Pt 176 Yb 176 Lu 176 Hf 176 Ir 177 Lu 177 Hf 177 Pt 177 Au 177 Aum 178 Lu 178 Lum 178 Hf 179 Lu 179 Hf 179 Ta 179 Au 179 Hg 180 Hf 180 Ta 180 W 180 Au 180 Hg 181 Hf 181 Ta 181 W 181 Hg 181 Tl 182 Ta 182 W 182 Os 182 Ir 183 W 183 Ir 183 Pt 183 Hg 183 Tl 183 m Tl 184 W 184 Re 184 Os 184 Pt 184 Hg 184 Tl 172 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Infl. 90.0 87.4 69.9 70.0 100.0 57.0 100.0 43.9 72.1 47.1 100.0 74.8 52.8 77.1 86.3 50.0 75.6 89.8 91.2 41.8 58.3 65.4 56.9 66.9 55.3 95.6 72.6 89.4 65.8 66.5 100.0 33.5 87.8 44.5 74.3 83.6 96.7 73.9 56.5 85.0 83.5 40.1 69.2 83.0 91.6 59.8 97.9 60.6 56.3 52.2 80.8 54.7 59.5 90.5 65.7 93.9 100.0 99.5 57.9 38.9 82.3 Equation Infl. Equation 171 10.0 12.6 30.1 26.5 175 28.1 172 28.7 27.9 42.9 173 13.2 47.2 12.8 13.7 50.0 24.4 10.2 8.8 22.5 36.1 34.6 42.9 22.2 28.8 4.4 27.4 10.6 34.2 32.7 174 26.1 12.2 32.8 25.7 16.4 3.3 12.6 40.8 15.0 16.5 34.0 21.8 17.0 6.1 40.2 1.9 39.4 43.7 38.6 19.2 30.7 40.5 9.5 34.3 5.0 C14 181 0.5 42.1 32.1 17.7 188 Os−C14.25 Er(t,p)172 Er 172 Er(β − )172 Tm 172 Yb(n,γ )173 Yb 171 Yb(α ,t)172 Lu−174 Yb()175 Lu 173 Yb(n,γ )174 Yb 172 Yb(α ,t)173 Lu−174 Yb()175 Lu 177 Pt(α )173 Os 177 Aum (α )173 Irm 174 Yb(n,γ )175 Yb 173 Yb(α ,t)174 Lu−174 Yb()175 Lu 176 Hf 35 Cl−174 Hf 37 Cl 174 Yb(n,γ )175 Yb 175 Lu(n,γ )176 Lu 174 Hf(n,γ )175 Hf 175 p Ir (IT)175 Ir 179 Au(α )175 Ir p 175 Pt(α )171 Os 176 Yb(α ,t)177 Lu−174 Yb()175 Lu 176 Lu(n,γ )177 Lu 176 Hf(n,γ )177 Hf 176 Ir−C14.667 176 Lu(n,γ )177 Lu 177 Hf(n,γ )178 Hf 177 Pt(α )173 Os 181 Tl(α )177 Au 177 Aum (IT)177 Au 179 Hf(t,α )178 Lu−178 Hf()177 Lu 178 Lum (IT)178 Lu 178 Hf(n,γ )179 Hf 180 Hf(t,α )179 Lu−178 Hf()177 Lu 178 Hf(n,γ )179 Hf 179 Ta(ε )179 Hf 183 m Tl (α )179 Au 179 Hg−208 Pb.861 179 Hf(n,γ )180 Hf 181 Ta(γ ,n)180 Ta 180 W(t,p)182 W 180 Au−C15 180 Hg−208 Pb.865 180 Hf(n,γ )181 Hf 181 Ta(n,γ )182 Ta 181 W(ε )181 Ta 181 Hg(α )177 Pt 181 Tl−133 Cs1.361 181 Ta(n,γ )182 Ta 182 W(n,γ )183 W 182 Os−C15.167 182 Ir−C15.167 183 W O−C2 35 Cl5 183 Ir−C15.25 183 Pt−C15.25 183 Hg−208 Pb.880 183 Tl−133 Cs1.376 187 Bi(α )183 Tlm 183 W(n,γ )184 W 185 Re(d,t)184 Re−187 Re()186 Re 184 Os(n,γ )185 Os 188 Hg(α )184 Pt 184 Hg−C15.333 184 Tl(α )180 Au 170 Infl. Equation Pt(α )171 Os Er(β − )172 Tm 172 Tm(β − )172 Yb 171 Yb(n,γ )172 Yb 3.3 172 Yb 35 Cl2 −168 Er 37 Cl2 Yb(n,γ )173 Yb 11.9 175 Lu 35 Cl−173 Yb 37 Cl Os−C14.417 Irm (α )169 Re 173 Yb(n,γ )174 Yb 27.4 173 Os(α )169 W 10.0 170 Yb(α ,t)171 Lu−174 Yb()175 Lu Hf(n,γ )175 Hf Yb(β − )175 Lu 175 Yb(β − )175 Lu 177 Hf(p,t)175 Hf 175 Ir−C14.583 175 p Ir (IT)175 Ir 179 Hg(α )175 Pt 176 Yb 35 Cl−174 Yb 37 Cl 175 Lu(n,γ )176 Lu 176 Lu(β − )176 Hf 180 Au(α )176 Ir 177 Lu(β − )177 Hf 177 Lu(β − )177 Hf 177 Pt−C14.75 177 Aum (IT)177 Au 177 Aum (α )173 Irm 178 Lum (IT)178 Lu 176 Lu(t,p)178 Lum 177 Hf(n,γ )178 Hf 12.0 176 Hf(p,t)174 Hf 4.4 175 Lu 37 Cl−142 Nd 35 Cl2 21.8 4.3 176 Lu(β − )176 Hf Hf 35 Cl−176 Hf 37 Cl 0.2 10.7 16.0 176 0.9 178 Hf 35 Cl−176 Hf 37 Cl 16.3 179 Hf(n,γ )180 Hf 22.7 179 Au(α )175 Irp 7.6 2.7 183 W O2 −180 W 35 Cl Tl(α )180 Au 8.7 9.0 181 2.3 181 Tl(α )177 Au 0.1 180 W(t,p)182 W 4.7 183 W(n,γ )184 W 14.6 187 Hgm (α )183 Pt 0.8 186 W 35 Cl−184 W 37 Cl 29.0 184 Hg−204 Pb.902 172 173 175 H11 −179 Hf Ta(p,t)179 Ta 179 Au−C14.917 179 Hg(α )175 Pt 180 Hf(n,γ )181 Hf 180 Ta(β − )180 W 180 Ta(β − )180 W 180 Au(α )176 Ir 184 Pb(α )180 Hg 181 Hf(β − )181 Ta 183 W 35 Cl−181 Ta 37 Cl 182 W(d,t)181 W 181 Hg−208 Pb.870 185 m Bi (α )181 Tl 182 Ta(β − )182 W 182 Ta(β − )182 W 186 Pt(α )182 Os 186 Au(α )182 Ir 199 Hg−183 W O 187 Au(α )183 Ir 187 Hg(α )183 Pt 187 Pb(α )183 Hg 187 Bi(α )183 Tl 183 m Tl (α )179 Au 184 W(n,γ )185 W Pt(α )184 Os Pt−C15.333 184 Hg−208 Pb.885 184 Tl−C15.333 178 Yb(α ,t)177 Lu−174 Yb()175 Lu Hf(n,γ )177 Hf 181 Hg(α )177 Pt 176 184 180 Hf(β − )181 Ta W(d,p)181 W 184 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Nucleus Infl. Equation Infl. Equation 184 84.1 92.8 67.9 99.6 67.4 67.7 84.6 64.4 60.6 56.3 67.8 76.1 56.1 80.8 55.7 51.1 62.0 75.3 43.7 66.8 69.3 80.1 64.2 64.4 71.9 78.3 71.0 80.4 60.8 92.6 78.0 57.8 72.6 78.9 63.3 69.0 54.4 69.8 86.0 61.7 45.4 64.3 58.6 81.9 64.5 65.3 86.5 58.0 93.6 83.3 49.9 60.3 93.7 99.9 78.6 93.0 51.7 57.2 93.7 96.6 84.1 184 Pb(α )180 Hg W(n,γ )185 W 185 W(β − )185 Re 185 Os(ε )185 Re 185 m Bi (p)184 Pb 186 W(n,γ )187 W 185 Re(n,γ )186 Re 186 Re(β − )186 Os 186 Pt−C15.5 186 Au−C15.5 187 W(β − )187 Re 187 Re(β − )187 Os 186 Os(n,γ )187 Os 187 Au−C15.583 187 Hg−208 Pb.899 187 Hgm (IT)187 Hg 191 Bi(α )187 Tl 191 Bi(α )187 Tlm 187 Pb(α )183 Hg 187 Pbm −133 Cs1.406 187 Bi(α )183 Tl 187 Os(n,γ )188 Os 188 Ir(β + )188 Os 188 Pt(α )184 Os 188 Hg−208 Pb.904 188 Os(n,γ )189 Os 191 Ir(p,t)189 Ir 190 Pt(p,d)189 Pt 189 Hg−C15.75 189 Hgm −208 Pb.909 189 Os(n,γ )190 Os 192 Pt(p,t)190 Pt 190 Hg−208 Pb.913 190 Os(n,γ )191 Os 191 Os(β − )191 Ir 192 Pt(p,d)191 Pt−194 Pt()193 Pt 191 Au(β + )191 Pt 191 Hg−208 Pb.918 191 Bi−133 Cs1.436 191 Po(α )187 Pbm 192 Os(p,t)190 Os 191 Ir(n,γ )192 Ir 192 Ir(β − )192 Pt 192 Os(n,γ )193 Os 192 Ir(n,γ )193 Ir 193 Pt(ε )193 Ir 197 Au(α ,8 He)193 Au 193 Hg(β + )193 Au 194 Pt(n,γ )195 Pt 194 Au(β + )194 Pt 194 Hg−208 Pb.933 198 Po(α )194 Pb 195 Pt(n,γ )196 Pt 195 Au(ε )195 Pt 195 Hg−208 Pb.938 196 Pt(n,γ )197 Pt 197 Au(γ ,n)196 Au 198 Hg 35 Cl−196 Hg 37 Cl 197 Pt(β − )197 Au 197 Au(n,γ )198 Au 196 Hg(n,γ )197 Hg 15.9 7.2 14.7 0.4 32.6 22.7 15.4 35.4 39.4 43.7 32.2 14.4 23.4 19.2 18.4 48.9 38.0 15.0 40.4 33.2 30.7 19.6 35.8 19.7 17.0 21.7 29.0 19.6 39.2 7.4 21.0 23.3 27.4 21.1 35.6 30.6 25.2 22.6 12.4 38.3 27.6 34.8 37.4 18.1 33.4 28.0 13.5 32.3 5.3 16.7 29.9 39.7 6.3 0.1 21.4 6.2 31.0 29.9 6.3 2.8 15.9 185 Pb W 185 Re 185 Os 185 m Bi 186 W 186 Re 186 Os 186 Pt 186 Au 187 W 187 Re 187 Os 187 Au 187 Hg 187 Hgm 187 Tl 187 m Tl 187 Pb 187 Pbm 187 Bi 188 Os 188 Ir 188 Pt 188 Hg 189 Os 189 Ir 189 Pt 189 Hg 189 Hgm 190 Os 190 Pt 190 Hg 191 Os 191 Ir 191 Pt 191 Au 191 Hg 191 Bi 191 Po 192 Os 192 Ir 192 Pt 193 Os 193 Ir 193 Pt 193 Au 193 Hg 194 Pt 194 Au 194 Hg 194 Pb 195 Pt 195 Au 195 Hg 196 Pt 196 Au 196 Hg 197 Pt 197 Au 197 Hg 185 184 Bim (p)184 Pb W(β − )185 Re 185 Re(n,γ )186 Re 184 Os(n,γ )185 Os 185 m Bi (α )181 Tl 186 W 35 Cl−184 W 37 Cl 186 Re(β − )186 Os 186 Os(n,γ )187 Os 186 Pt(α )182 Os 186 Au(α )182 Ir 186 W(n,γ )187 W 187 W(β − )187 Re 187 Re(β − )187 Os 187 Au(α )183 Ir 187 Hg(α )183 Pt 187 Hgm (α )183 Pt 187 m Tl (IT)187 Tl 187 m Tl −C15.583 187 Pb−133 Cs1.406 191 Po(α )187 Pbm 187 Bi(α )183 Tlm 188 Os(n,γ )189 Os 188 Pt(ε )188 Ir 190 Pt(p,t)188 Pt 188 Hg−C15.667 189 Os(n,γ )190 Os 189 Pt(β + )189 Ir 189 Pt(β + )189 Ir 189 Hgm (IT)189 Hg 189 Hgm (IT)189 Hg 190 Os(n,γ )191 Os 190 Pt(p,t)188 Pt 194 Pb(α )190 Hg 191 Os(β − )191 Ir 191 Ir(n,γ )192 Ir 192 Pt(p,d)191 Pt 191 Hg(β + )191 Au 191 Hg−C15.917 191 Bi(α )187 Tlm 191 Po(α )187 Pb 193 Ir(t,α )192 Os−191 Ir()190 Os 192 Ir(n,γ )193 Ir 192 Pt(n,γ )193 Pt 193 Os(β − )193 Ir 193 Pt(ε )193 Ir 194 Pt(p,d)193 Pt 193 Hg(β + )193 Au 193 Hg−208 Pb.928 194 Pt(p,d)193 Pt 194 Hg(ε )194 Au 194 Hg(ε )194 Au 194 Pb(α )190 Hg 194 Pt(n,γ )195 Pt 195 Hg(β + )195 Au 195 Hg(β + )195 Au 195 Pt(n,γ )196 Pt 196 Au(β − )196 Hg 196 Au(β − )196 Hg 196 Pt(n,γ )197 Pt 197 Pt(β − )197 Au 199 Hg(p,t)197 Hg 417 Infl. Equation 14.6 185 Re 35 Cl−183 W 37 Cl 9.6 186 W(p,t)184 W 0.2 190 Pt(α )186 Os 9.8 19.7 187 Re 35 Cl−185 Re 37 Cl Os(n,γ )188 Os 17.2 187 Hg−C15.583 9.7 15.9 187 191 Tlm (IT)187 Tl Po(α )187 Pb 0.3 188 Ir(β + )188 Os 15.9 11.1 188 Pt(ε )188 Ir Hg(α )184 Pt 0.6 14.9 192 1.1 0.3 20.4 7.6 1.6 193 18.0 1.0 5.5 192 3.1 5.7 193 9.7 1.1 193 20.1 194 0.8 17.3 12.9 196 0.5 197 185 187 188 190 Os(p,t)190 Os Pt(α )186 Os Ir(t,α )192 Os−191 Ir()190 Os Au(β + )191 Pt 191 Au−C15.917 191 Hg(β + )191 Au 191 Bi(α )187 Tl 191 Os(n,γ )193 Os Ir(β − )192 Pt 192 Pt(p,d)191 Pt−194 Pt()193 Pt 192 192 192 Os(β − )193 Ir Pt(p,d)191 Pt−194 Pt()193 Pt Hg−C16.083 Pt(p,d)191 Pt−194 Pt()193 Pt Hg−C16.167 Au(β + )196 Pt Au(β + )196 Pt 196 Hg(n,γ )197 Hg 196 Au(γ ,n)196 Au 418 Nucleus 198 Au Hg 198 Po 199 Au 199 Hg 200 Hg 201 Au 201 Hg 202 Hg 202 Tl 202 Pb 203 Au 203 Hg 203 Tl 203 Pb 203 Bi 203 At 204 Hg 204 Tl 204 Pb 204 At 205 Hg 205 Tl 205 Pb 205 Bi 206 Tl 206 Pb 207 Tl 207 Pb 207 Bi 207 Po 207 At 207 Fr 208 Pb 208 Fr 209 Pb 209 Bi 209 At 209 Fr 210 Pb 210 Bi 210 Po 210 Fr 211 Pb 211 Bi 211 Fr 212 Pb 212 Bi 212 Po 212 Fr 213 Bi 213 Po 213 Fr 214 Pb 214 Bi 214 Po 215 Po 216 Po 216 At 217 At 218 Po 198 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Infl. 70.0 70.9 60.6 71.8 42.7 82.3 100.0 52.4 43.0 54.1 65.7 100.0 83.6 75.8 51.4 81.6 99.9 87.1 77.6 78.9 94.0 52.7 56.7 80.9 100.0 84.1 70.0 45.4 88.9 97.4 59.3 81.9 97.4 89.1 69.6 87.0 85.8 100.0 99.0 97.8 50.3 98.5 98.0 94.4 58.2 81.4 54.2 72.6 92.5 97.2 77.7 93.2 100.0 99.1 69.0 97.8 94.9 55.6 100.0 78.8 99.1 Equation Infl. Equation Au(β − )198 Hg Hg−C16.5 198 Po−208 Pb.952 198 Au(n,γ )199 Au 199 Hg−C2 35 Cl5 199 Hg(n,γ )200 Hg 202 Hg(d,3 He)201 Au−206 Pb()205 Tl 201 Hg(n,γ )202 Hg 201 Hg(n,γ )202 Hg 203 Tl(p,d)202 Tl 204 Pb(p,t)202 Pb 204 Hg(d,3 He)203 Au−206 Pb()205 Tl 203 Hg(β − )203 Tl 203 Tl(n,γ )204 Tl 204 Pb(p,d)203 Pb 207 At(α )203 Bi 203 At−208 Pb.976 204 Hg−C17 204 Tl(β − )204 Pb 204 Pb(n,γ )205 Pb 204 At−C17 204 Hg(d,p)205 Hg 205 Tl(d,t)204 Tl 205 Pb(n,γ )206 Pb 205 Bi(β + )205 Pb 205 Tl(n,γ )206 Tl 206 Pb 35 Cl2 −202 Hg 37 Cl2 207 Tl(β − )207 Pb 206 Pb(n,γ )207 Pb 209 Bi(p,t)207 Bi 207 Po(α )203 Pb 211 Fr(α )207 At 207 Fr(α )203 At 207 Pb(n,γ )208 Pb 208 Fr(α )204 At 209 Pb(β − )209 Bi 209 Bi(n,γ )210 Bi 209 At(α )205 Bi 209 Fr−226 Ra.925 210 Pb(β − )210 Bi 210 Bi(β − )210 Po 210 Po(α )206 Pb 210 Fr−226 Ra.929 215 Po(α )211 Pb 211 Bi(α )207 Tl 211 Fr−226 Ra.934 216 Po(α )212 Pb 212 Bi(β − )212 Po 212 Po(α )208 Pb 212 Fr−226 Ra.938 217 At(α )213 Bi 213 Po(α )209 Pb 213 Fr(α )209 At 218 Po(α )214 Pb 214 Bi(β − )214 Po 214 Po(α )210 Pb 219 Rn(α )215 Po 220 Rn(α )216 Po 216 At(α )212 Bi 221 Fr(α )217 At 222 Rn(α )218 Po 26.7 20.2 39.4 28.2 28.0 7.2 198 34.1 24.7 45.9 26.0 201 198 198 Au(n,γ )199 Au Hg(n,γ )199 Hg 198 Po(α )194 Pb 199 Au(β − )199 Hg 198 Hg(n,γ )199 Hg 204 Hg 35 Cl2 −200 Hg 37 Cl2 Infl. Equation Au(n,γ )198 Au Au(β − )198 Hg 3.3 4.0 197 15.0 6.8 199 Hg 35 Cl−199 Hg 37 Cl Hg 35 Cl−200 Hg 37 Cl 202 Pb(ε )202 Tl 202 Pb−C16.833 12.9 20.7 201 8.2 202 11.3 11.1 37.0 18.4 0.1 5.9 18.5 19.3 6.0 47.3 13.5 19.1 204 5.1 8.2 10.3 202 5.3 3.9 1.3 204 11.7 205 15.9 18.5 41.7 10.1 2.6 40.7 18.1 2.6 7.5 9.3 11.1 9.6 210 8.1 12.9 0.6 206 1.7 6.7 1.9 4.2 208 0.9 2.2 33.7 1.5 2.0 5.6 41.8 17.2 45.8 27.4 7.5 2.8 22.3 6.8 209 0.2 208 Fr−209 Fr.498 14.1 209 Bi(n,γ )210 Bi 1.4 211 Fr−220 Fr.240 0.9 31.0 2.0 5.1 44.4 214 0.3 214 Bi(β − )214 Po 21.2 0.9 217 198 202 Hg(d,t)203 Hg Tl 35 Cl−201 Hg 37 Cl 207 Po(α )203 Pb 203 Bi(β + )203 Pb 207 Fr(α )203 At 204 Hg 35 Cl2 −200 Hg 37 Cl2 203 Tl(n,γ )204 Tl 204 Tl(β − )204 Pb 208 Fr(α )204 At 202 Hg(d,p)203 Hg−204 Hg()205 Hg 205 Tl 35 Cl−203 Tl 37 Cl 204 Pb(n,γ )205 Pb 203 Bi(α )206 Tl Pb(n,γ )206 Pb 211 Bi(α )207 Tl 207 Pb(n,γ )208 Pb 207 Po(β + )207 Bi 207 Po(β + )207 Bi 207 At(α )203 Bi 208 Fr−209 Fr.498 207 Fr.502 212 Po(α )208 Pb 208 Fr−209 Fr.498 207 Fr.502 208 Pb(d,p)209 Pb 209 Bi(α )205 Tl 205 Fr−213 Fr.196 208 Fr.804 Po(α )210 Pb 210 Bi(α )206 Tl 210 Bi(β − )210 Po 210 Fr−220 Fr.159 208 Fr.841 211 Pb(β − )211 Bi 211 Pb(β − )211 Bi 211 Fr(α )207 At 212 Pb(β − )212 Bi 212 Pb(β − )212 Bi 212 Bi(β − )212 Po 212 Fr−220 Fr.321 208 Fr.679 213 Bi(β − )213 Po 213 Bi(β − )213 Po 198 200 204 Hg 35 Cl−199 Hg 37 Cl Hg 35 Cl−202 Hg 37 Cl Pb(ε )202 Tl Hg(d,p)203 Hg−204 Hg()205 Hg Hg(β − )203 Tl 203 Pb(ε )203 Tl 203 Hg 35 Cl−202 Hg 37 Cl Tl(d,t)204 Tl 206 Pb 35 Cl−204 Pb 37 Cl 205 Tl(3 He,d)206 Pb Pb(n,γ )207 Pb Tl(t,p)207 Tl 207 Tl(β − )207 Pb 205 Pb 35 Cl−206 Pb 37 Cl Fr−220 Fr.159 208 Fr.841 213 Po(α )209 Pb 209 Pb(β − )209 Bi 210 214 Pb(β − )214 Bi Pb(β − )214 Bi 218 Rn(α )214 Po 215 Po(α )211 Pb 216 Po(α )212 Pb Hg(n,γ )200 Hg Hg 35 Cl−198 Hg 37 Cl 214 218 At(α )213 Bi Po(α )214 Pb 207 Fr.502 208 Fr.761 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Nucleus 218 Rn Rn 220 Rn 220 Fr 221 Fr 222 Rn 222 Fr 222 Ra 223 Ra 224 Ra 225 Ra 225 Ac 226 Ra 226 Ac 226 Th 227 Ac 227 Th 228 Th 229 Ra 229 Ac 229 Th 229 Pa 230 Th 230 Pa 231 Th 231 Pa 232 Th 233 Th 233 Pa 233 U 234 U 235 U 235 Np 236 U 237 U 237 Np 237 Pu 238 U 238 Pu 239 Np 239 Pu 240 Pu 241 Pu 241 Am 241 Cm 242 Pu 243 Pu 243 Am 244 Pu 246 Pu 246 Amm 246 Cm 247 Cm 248 Cm 219 Infl. 94.0 95.0 55.7 100.0 80.2 99.2 82.2 64.9 95.0 55.8 94.9 63.7 98.9 86.1 58.9 95.6 95.0 56.1 91.5 55.8 68.2 92.9 59.9 86.7 83.7 50.5 69.5 92.9 74.9 48.0 49.7 31.7 86.2 58.7 82.5 97.8 94.0 54.3 76.0 98.0 44.3 37.5 62.4 97.6 95.0 61.0 74.9 96.3 65.2 54.2 56.6 98.7 63.4 67.5 Equation Infl. Equation Rn(α )214 Po Ra(α )219 Rn 224 Ra(α )220 Rn 220 Fr(α )216 At 225 Ac(α )221 Fr 226 Ra(α )222 Rn 222 Fr−226 Ra.982 222 Ra(α )218 Rn 227 Th(α )223 Ra 228 Th(α )224 Ra 229 Th(α )225 Ra 229 Pa(α )225 Ac 230 Th(α )226 Ra 230 Pa(α )226 Ac 226 Th(α )222 Ra 231 Pa(α )227 Ac 227 Ac(β − )227 Th 230 Th(p,t)228 Th−232 Th()230 Th 229 Ra−133 Cs1.722 229 Ra(β − )229 Ac 233 U(α )229 Th 231 Pa(p,t)229 Pa 230 Th(p,t)228 Th−232 Th()230 Th 230 Pa(ε )230 Th 230 Th(n,γ )231 Th 231 Th(β − )231 Pa 236 U(α )232 Th 232 Th(n,γ )233 Th 237 Np(α )233 Pa 233 Pa(β − )233 U 234 U(n,γ )235 U 234 U(n,γ )235 U 235 Np(ε )235 U 240 Pu(α )236 U 236 U(n,γ )237 U 241 Am(α )237 Np 241 Cm(α )237 Pu 242 Pu(α )238 U 238 Pu(α )234 U 239 Np(β − )239 Pu 239 Pu(α )235 U 240 Pu(n,γ )241 Pu 240 Pu(n,γ )241 Pu 241 Pu(β − )241 Am 241 Cm(ε )241 Am 241 Pu(n,γ )242 Pu 242 Pu(n,γ )243 Pu 243 Am(α )239 Np 244 Pu(d,t)243 Pu 244 Pu(t,p)246 Pu 246 Amm (β − )246 Cm 246 Cm(α )242 Pu 247 Cm(α )243 Pu 248 Cm(α )244 Pu 6.0 5.0 44.3 222 19.8 0.8 17.8 35.1 5.0 44.2 5.1 18.3 0.8 13.7 41.1 4.4 5.0 43.9 8.5 44.2 27.3 7.1 21.2 13.3 12.0 41.7 22.6 7.1 14.8 25.4 36.2 24.1 13.8 31.5 17.5 2.2 6.0 34.1 24.0 2.0 41.3 31.3 34.9 2.0 5.0 38.4 13.5 3.7 32.4 45.8 43.4 0.9 24.1 22.7 221 218 223 419 Infl. Equation 17.9 0.1 0.3 225 4.3 229 Th(α )225 Ra 14.4 230 Th(n,γ )231 Th 4.3 3.9 18.3 231 10.2 15.3 13.7 22.3 233 8.9 236 Ra(α )218 Rn Rn(α )215 Po 220 Rn(α )216 Po 219 Fr(α )217 At Rn(α )218 Po 226 Ac(α )222 Fr 226 Th(α )222 Ra 223 Ra(α )219 Rn 224 Ra(α )220 Rn 225 Ra(β − )225 Ac 225 Ac(α )221 Fr 226 Ra(α )222 Rn 226 Ac(β − )226 Th 226 Ac(β − )226 Th 227 Ac(β − )227 Th 227 Th(α )223 Ra 228 Th(α )224 Ra 229 Ra(β − )229 Ac 229 Ac(β − )229 Th 230 Th(d,t)229 Th 229 Pa(α )225 Ac 234 U(α )230 Th 230 Pa(α )226 Ac 235 U(α )231 Th 235 Np(α )231 Pa C24 H16 −232 Th 37 Cl 35 Cl 233 Th(β − )233 Pa 233 Th(β − )233 Pa 233 U(α )229 Th 234 U(α )230 Th 239 Pu(α )235 U 235 Np(α )231 Pa 235 U(n,γ )236 U 241 Pu(α )237 U 237 Np(α )233 Pa 237 Pu(α )233 U C24 H20 −238 U 35 Cl2 238 Pu(n,γ )239 Pu 243 Am(α )239 Np 239 Pu(n,γ )240 Pu 240 Pu(α )236 U 241 Pu(n,γ )242 Pu 241 Am(α )237 Np 241 Cm(α )237 Pu 242 Pu(α )238 U 243 Pu(β − )243 Am 243 Pu(β − )243 Am 248 Cm(α )244 Pu 246 Pu(β − )246 Amm 246 Pu(β − )246 Amm 246 Cm(d,p)247 Cm 246 Cm(d,p)247 Cm 248 Cm(d,t)247 Cm 222 Ra(β − )225 Ac Fr−226 Ra.934 226 Ac(α )222 Fr 211 Th(β − )231 Pa Pa(p,t)229 Pa C18 H16 −232 Th 231 Pa(β − )233 U Pu(α )233 U 238 Pu(α )234 U 235 U(n,γ )236 U 237 U(α )232 Th 11.6 C18 H22 −238 U 14.0 31.2 2.2 0.4 238 0.5 7.9 242 2.4 244 0.3 12.5 9.8 248 Pu(n,γ )239 Pu Pu(n,γ )240 Pu 241 Pu(β − )241 Am 241 Cm(ε )241 Am 239 247 Pu(n,γ )243 Pu Cm(α )243 Pu Pu(t,p)246 Pu Cm(p,t)246 Cm Cm(d,t)247 Cm 248 Cm(p,t)246 Cm 248 420 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Table III. Nuclear-reaction and separation energies EXPLANATION OF TABLE We present, for all nuclei for which such data can be derived, separation energies (in keV) of particles or groups of particles and nuclear-reaction energies obtained as the following combinations of atomic masses (see accompanying diagram): Q(β − ) Q(2β − ) Q(4β − ) Q(β − n) S(n) S(p) Q(ε p) S(2n) Q(d,α ) S(2p) Q(p,α ) Q(n,α ) Q(α ) = = = = = = = = = = = = = M(A, Z) − M(A, Z + 1) (in part I) M(A, Z) − M(A, Z + 2) M(A, Z) − M(A, Z + 4) M(A, Z) − M(A − 1, Z + 1)−n − M(A, Z) + M(A − 1, Z)+n − M(A, Z) + M(A − 1, Z − 1)+1 H M(A, Z) − M(A − 1, Z − 2)−1 H − M(A, Z) + M(A − 2, Z)+2n M(A, Z) − M(A − 2, Z − 1)−2 H−4 He − M(A, Z) + M(A − 2, Z − 2) + 21 H M(A, Z) − M(A − 3, Z − 1)−4 He+p M(A, Z) − M(A − 3, Z − 2)−4 He+n M(A, Z) − M(A − 4, Z − 2)−4 He Z c b d a h e A N Elt N Z k i f m l j g (a) (b) (c) (d) (e) (f) (g) (h) (i) (j) (k) (l) (m) G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z 2224.57 0.04 421 Mass number. Element symbol (for Z > 103 see part I, sect. 2). Atomic number. 2224.57 ± 0.04 keV. The errors are derived from the adjusted masses and the correlation matrix. For the most precise very light nuclides the precisions are often better than 5 eV and could not be given conveniently in this table. In Table B, the correlation matrix for these nuclides allows easy derivation. ∗ in place of value: not calculable from the present input data. # in place of decimal point: values and errors estimated from systematic trends. Other reaction energies can be derived from the given data with the help of the following relations: Q(γ ,p) Q(γ ,n) Q(γ ,2p) Q(γ ,pn) Q(γ ,d) Q(γ ,2n) Q(γ ,t) Q(γ ,3 He) Q(γ , α ) = = = = = = = = = − S(p) − S(n) − S(2p) Q(d,α ) Q(d,α ) − S(2n) Q(p,α ) Q(n,α ) Q(α ) Q(p,n) Q(p,2p) Q(p,pn) Q(p,d) Q(p,2n) Q(p,t) Q(p,3 He) = = = = = = = Q(β ) − S(p) − S(n) − S(n) Q(β − n) − S(2n) Q(d,α ) Q(n,2p) Q(n,np) Q(n,d) Q(n,2n) Q(n,t) Q(n,3 He) = = = = = = Q(ε p) − S(p) − S(p) − S(n) Q(d,α ) − S(2p) Q(d,pn) Q(d,t) Q(d,3 He) = 0 = − S(n) = − S(p) − 26071.0935 ± 0.0008 − 23846.5275 ± 0.0007 − 19813.8608 ± 0.0023 − 20577.6162 ± 0.0025 − 782.3466 ± 0.0005 + 2224.5660 ± 0.0004 − 782.3466 ± 0.0005 + 8481.7987 ± 0.0025 − 18353.0502 ± 0.0025 + 782.3466 ± 0.0005 + 2224.5660 ± 0.0004 − 17589.2948 ± 0.0023 + 7718.0433 ± 0.0025 − + + 2224.5660 ± 0.0004 6257.2327 ± 0.0024 5493.4773 ± 0.0024 Q(3 He,t) = Q(β − ) 3 Q( He,α ) = − S(n) − 18.5912 ± 0.0011 + 20577.6162 ± 0.0025 Q(t,α ) + 19813.8608 ± 0.0023 = − S(p) 422 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(n) 0.0 ∗ Q(4β − ) S(p) 1 n H 0 1 0.0 2 H 1 2224.57 0.00 3 H 1 He 2 Li 3 6257.23 ∗ ∗ 0.00 ∗ 0.0 Q(n,α ) ∗ ∗ ∗ ∗ ∗ ∗ ∗ ∗ ∗ ∗ 2224.57 0.00 ∗ 23846.53 0.00 ∗ 5493.48 ∗ 0.00 ∗ ∗ ∗ 17589.29 18353.05 ∗ 0.00 0.00 0.00 210 ∗ ∗ ∗ ∗ 0.0 ∗ ∗ ∗ ∗ ∗ ∗ 7150 7460 20040# 5 H He Li Be 1 1080 2 −890 3 21720 4 ∗ 140 50 220 ∗ 21800 −1970 −5380# 110 50 4000# 6 H He Li Be B 1 −900 2 1860 3 5660 4 27690# 5 ∗ 280 50 50 4000# ∗ 22590 4590 590 1680# 100 50 50 4060# 7 H He Li Be B 1 800# 1040# ∗ 2 −435 17 23050 3 7249.97 0.08 9975.9 4 10676 5 5605.73 5 23810# 700# −2200 8 He Li Be B C 2 2574 3 2032.61 4 18899.68 5 13020 6 ∗ 18 24830# 1010# −3496 0.05 12443 17 ∗ 0.11 17255.44 0.09 ∗ 70 137.5 1.0 ∗ 60 70 ∗ 9 He Li Be B C 2 −1270 3 4063.9 4 1665.3 5 18577.1 6 14255 29 1.9 0.4 1.4 23 ∗ 13933 16888.2 −185.0 1300.0 12029 ∗ ∗ ∗ ∗ 29 7 0.4 1.0 2.4 10 He Li Be B C N 2 200 3 −25 4 6812.29 5 8436.3 6 21283.1 7 ∗ 80 ∗ 15 15180 0.06 19636.6 1.1 6585.9 2.2 4006.0 −2600 30 1.9 0.6 1.1 400 33110 −5750 ∗ ∗ ∗ ∗ 11 Li Be B C N 3 325 4 504 5 11454.12 6 13119.7 7 22570 15300 20165 11227.7 8689.4 −1320 70 16 0.6 0.9 50 16490 ∗ ∗ ∗ ∗ 12 Li Be B C N O 3 −1230# 4 3169 5 3370.3 6 18721.7 7 15040 8 ∗ ∗ 23010 14094 15956.9 601.2 −460 24 7 0.4 1.4 50 1000# 16 1.5 1.0 50 Q(p,α ) 0.0 4 H 1 −2880 100 ∗ He 2 20577.62 0.00 19813.86 Li 3 11420# 2010# −3100 25 6 0.16 0.9 400 Q(d,α ) 270 0.8 0.10 70 −1740# ∗ ∗ ∗ ∗ 750# ∗ 2400 22372.68 3760 ∗ 21270# 1010# ∗ ∗ 3920 ∗ 14230 ∗ 14800 ∗ 580# 24 450 14062.5 1565.69 15257 2200# 0.0 50 50 4470# 100 0.02 210 100 50 50 4000# 19813.86 ∗ ∗ 22690 0.0 ∗ ∗ 3110 ∗ ∗ 0.00 100 0.0 50 ∗ 20577.62 ∗ ∗ 0.0 23680 ∗ ∗ 4190 ∗ 0.00 0.0 210 50 ∗ 7509.4 0.8 4019.63 0.02 −5430# 2000# ∗ ∗ ∗ 4783.39 0.02 9090 5 20580# 2120# ∗ 5060 17347.28 −4690 ∗ ∗ ∗ −5350 18991.52 8190 260 3570 0.8 14420 0.04 −1870 6 −10210# 700# ∗ 100 0.08 210 100 0.11 220 100 50 50 4000# ∗ −6300 −800 16890 2750# 100 50 50 4000# 2520# 9564 7150.3 7356.5 11750 1010# 17 0.4 1.0 70 3940 12223.2 2124.9 −1095 −9830# 270 2.1 0.4 6 700# ∗ −11260 −601.1 3975.3 16182 260 0.9 1.0 6 70 400 ∗ 12163 2370.6 17819.9 3488.0 14420 17 0.4 0.4 1.1 400 4540# 11814 2562.6 1144.8 −7310 ∗ 1010# 22 0.4 0.4 70 ∗ −10440# −7848 2789.0 5575.0 16580 1010# 17 0.4 0.4 410 50 10570 5931 8031.1 8945.5 6100 40 7 0.6 1.4 50 14063 4091 8590.3 −7407.1 −5930 20 6 0.4 1.4 50 ∗ −5778 −6632.5 11355.1 7030 9 0.4 1.0 50 32760# 1000# 12000# −6971 24 2737 ∗ 11473.0 ∗ −1339.9 ∗ 12350.2 ∗ 3960 1000# 21 1.5 0.4 1.1 400 14020# 4986 6885.3 −7551.6 −6708.4 ∗ 1000# 15 1.5 1.0 2.4 ∗ −10220 −5939.0 −5701.2 10568.8 8784 30 2.4 0.4 1.4 19 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) Q(2β − ) Q(α ) S(2p) 423 Q(β − n) Q(ε p) 1 n H 0 1 ∗ ∗ ∗ ∗ ∗ ∗ ∗ ∗ ∗ ∗ ∗ ∗ 2 H 1 ∗ ∗ ∗ ∗ ∗ ∗ 3 H 1 He 2 Li 3 8481.80 ∗ ∗ 4 H 1 He 2 Li 3 3380 ∗ ∗ 0.00 100 ∗ 7718.04 0.00 −6800# 2000# ∗ ∗ 2390 5 H He Li Be 1 −1800 2 19690 3 33130# 4 ∗ 100 50 2000# ∗ ∗ 17850 −8490# 6 H He Li Be B 1 180 2 972.4 3 27380 4 ∗ 5 ∗ 280 0.8 210 ∗ ∗ 26390 −1372 −3700# 7 H He Li Be B 1 −100# 2 1430 3 12910 4 38370# 5 ∗ 1000# 50 50 4000# 8 He Li Be B C 2 2140 3 9282.58 4 29576 5 36820# 6 ∗ 9 He Li Be B C 2 1300 3 6096.5 4 20565.0 5 31600 6 ∗ 10 He Li Be B C N 210 ∗ ∗ ∗ ∗ 0.0 ∗ 50 4000# ∗ 890 1970 ∗ −13720# 2000# ∗ ∗ 0.0 50 50 580 ∗ ∗ 240 ∗ ∗ 8240# 2000# ∗ ∗ 3080 210 ∗ ∗ ∗ 2900 −34310# ∗ 21210 110 ∗ 22400 −26610# 4000# ∗ −22010 ∗ −21510 110 ∗ ∗ 28280# 4000# ∗ 100 2000# 100 220 100 5 730# ∗ ∗ −1473.84 ∗ ∗ 260 ∗ 5 ∗ 700# −26090 −300 24640# 22410 −2160 100 −31980# 50 ∗ 700# ∗ 270 50 4000# 100 50 90 ∗ 34230# 1010# ∗ ∗ 10331 17 ∗ −2466.58 0.08 −12960 70 −34240 −1586.10 0.11 ∗ −9114.0 −3220# 2000# ∗ 6490 23470# 3943 260 −11538 0.8 −35910# 70 ∗ 1010# 17 5 700# 7 ∗ 0.09 35490 5 27231.4 700# 5743.2 −2141 260 0.8 1.0 24 ∗ −7380 91.84 −4830 ∗ 30 1.9 0.4 70 ∗ 38760# 29331 17070.4 1437.5 1010# 17 1.0 2.1 ∗ −10360 −2460 −1690 −11510# 100 50 50 4000# 2 −1070 3 4039 4 8477.6 5 27013.4 6 35538 7 ∗ 70 15 0.4 1.1 23 ∗ ∗ 33569 23474.1 3820.9 −1300 7 0.4 0.4 400 ∗ −11240 −7413.4 −4461.0 −5101 −7230# 270 0.9 0.4 5 810# 11 Li Be B C N 3 300 4 7316 5 19890.4 6 34402.8 7 ∗ 19 6 1.1 2.3 ∗ 35340 30864.3 15275.2 2690 30 2.0 1.0 50 −10760# −8352 −8665.1 −7544.6 −5990 1010# 18 0.4 1.0 80 12 Li Be B C N O 3 −900# 4 3673 5 14824.5 6 31841.3 7 37600 8 ∗ 1000# 15 1.5 0.4 400 ∗ 38310 34260 27184.6 9290.6 −1771 70 15 0.4 1.1 18 ∗ −8946 −10002.9 −7366.59 −8008.3 −5471 ∗ ∗ 32560 10190 −1610 27780 −780 0.02 −29520# ∗ ∗ 7 ∗ 8619 1.0 −35480# 1010# −2894.51 23 −28448 17 −31000 724.4 1.0 ∗ 12035 23 ∗ 7 0.09 70 29592 12538.6 −17562.8 ∗ ∗ 29 ∗ 2.1 ∗ 2.2 −27539 −15820.1 16679.8 11921 11941.3 7 −19645.2 1.0 −30750 2.1 ∗ 29 1.9 1.1 23 36200 21000 −3092.0 −26750 ∗ ∗ 70 ∗ 15 ∗ 0.6 −35622 400 −20192.5 −2937.9 19100 15780 13632 29 −7880.3 2.0 −24931.1 0.6 ∗ 400 ∗ 70 15 0.9 2.2 26656 100 −1974.6 0.04 −30152 210 ∗ ∗ 32129 9524 −15640 ∗ ∗ 19 6 50 ∗ −35920 −31672 −9245.3 4960 36730# 1000# ∗ 17 25077 15 ∗ 1.4 −3969.2 1.7 −34717 0.04 −32048 18 −27463 1.4 ∗ 1381.2 30 ∗ 14109 20119 70 52 15 −15102.07 1.0 −36220 50 ∗ 21850# 8337 19 −5352.8 6 −32370 1.1 ∗ 18 ∗ 19 6 0.20 400 1000# 15 1.7 50 424 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(n) Q(4β − ) S(p) 13 Be B C N O 4 −100 5 4878.1 6 4946.31 7 20063.9 8 17007 14 Be B C N O F 4 1360 150 ∗ 5 970 21 16870 6 8176.43 0.00 20831.2 7 10553.38 0.27 7550.56 8 23176 10 4627.10 9 ∗ −2260# 15 Be B C N O F 4 5 6 7 8 9 Q(d,α ) Q(p,α ) Q(n,α ) 5060 8819.6 −4061.7 −5489.1 −10820 70 1.2 0.4 0.5 400 −9910 −10842 −3835.3 −1058.8 13060 100 15 0.4 0.5 10 70 1.1 0.00 0.29 400# 31950 130 570# 1010# 4020 −8990# 400# 9298 26 8354 ∗ 361.8 1.4 −784.0 ∗ 13574.22 0.00 −2922.9 ∗ 1380.1 1.0 −11430 ∗ 11320# 400# ∗ 130 22 0.4 1.0 50 ∗ −11487 −11508 −158.1 3003.4 14000# 29 6 0.4 1.0 400# ∗ 18270 21080 10207.42 7296.8 −1480 130 21 0.00 0.5 130 46940# 500# 12200 140 ∗ ∗ ∗ ∗ 4570# 1120# ∗ 80 8760 27 −15480# 1.3 1368.3 1.6 −9557 0.00 4965.49 0.00 −7621.1 0.6 −9618.4 1.1 8502.0 130 −10410 140 5080 1000# 15 1.4 0.5 130 ∗ 20010# 22567 11478.5 12127.41 −536 70 62420# 500# ∗ 510# 26400 60 7840 23 −10302 21 741 2.7 ∗ 13374.6 0.00 ∗ 3110.39 8 ∗ 13384 140 ∗ 2050# 150 22 2.6 0.00 8 400# ∗ 8700 1996 7422.7 −5218.43 −7568 ∗ ∗ 90 ∗ 4 −13910 2.6 −5232.1 0.27 −2215.61 13 10981 6530 70 2.8 0.00 8 23 17 B 5 1380 180 C 6 727 18 N 7 5884 15 O 8 4143.13 0.11 F 9 16800 8 Ne 10 15610 30 21200# 23330 13112 13781.4 600.27 1508 530# 60 15 2.6 0.25 28 530# 8680 28 2239 15 9716 0.11 1191.82 0.5 −1191.60 140 −11330# 220 ∗ 27 −13270 15 −10146 0.11 1817.70 0.27 4734.69 400# 14100 130 26 0.11 0.25 27 18 B 5 −480# C 6 4180 N 7 2828 O 8 8044.0 F 9 9149.3 Ne 10 19215 Na 11 ∗ 820# 30 24 0.6 0.6 27 ∗ 26130 15213 15942 5606.5 3923.5 −440 170 25 15 0.5 0.4 60 51450# 800# 5360# 19610 30 −1440 −11080 50 10131 ∗ 4245.6 ∗ 16321.5 ∗ 5348 ∗ 10900 950# 70 19 2.7 0.5 8 50 7390# 820 8105 3981.1 2882.2 −6590 ∗ 950# 40 19 0.6 0.7 130 19 B 5 1030# C 6 580 N 7 5324 O 8 3954.9 F 9 10432.4 Ne 10 11637.0 Na 11 19330 Mg 12 ∗ 900# 90 25 2.8 0.5 0.4 50 ∗ 27190# 16350 17069 7994.8 6411.2 −321 −1560 810# 30 19 0.6 0.6 12 260 60850# 400# ∗ 30670 100 −640 2935 20 5534 −29710 250 6174 ∗ 10032.23 ∗ 10510.5 ∗ 7177 ∗ ∗ 200 24 15 0.13 0.4 30 6550# 200 7032 2515 8113.67 −4065 −6206 ∗ 640# ∗ 120 −19610# 17 −15570 4 −4713 0.07 −1524.6 8 12134.84 24 7893 14690 510# 60 5 2.6 0.29 15 250 29100# 17940 19354 10641.2 12843.52 2193 2645 470# 44600 110 14920 16 −13773 2.8 ∗ 0.07 ∗ 7 ∗ 30 ∗ 840# 60 19 0.6 0.5 7 60 −1350 5590 790 5655.46 −4129.58 −4749 ∗ 290 ∗ 60 −16360 15 −11595 0.13 −2242 0.25 −586.72 28 10542 6760 180 17 15 0.11 7 40 70 24140# 1000# 1.8 15803 15 0.00 17532.9 1.4 1.0 1943.49 0.27 21 1515 10 −1770# 520# 2760 30 1218.1 0.8 10833.30 0.00 13223.1 0.5 23950# 420# 16 Be 4 190# B 5 −40 C 6 4250 N 7 2489.1 O 8 15663.9 F 9 14170 Ne 10 ∗ 710# 60 4 2.6 0.5 130 20 C 6 2930 260 N 7 2170 60 O 8 7608.7 2.9 F 9 6601.33 0.03 Ne 10 16864.69 0.29 Na 11 14150 14 Mg 12 23540 250 10140 ∗ ∗ ∗ ∗ 41820 4580 ∗ ∗ ∗ ∗ 70 170 30 240 60 27 3160 7099 5167.9 5405.9 9520 ∗ 6440 4021.8 7687.23 8220.9 4370 4680# 2777 8709 9800.56 9806.9 10400 −4050# 7550 1394 11474.9 2795.2 12241 4090 70 6 0.4 1.0 50 ∗ −19230# −10211 −5008.3 6418.7 8108.0 13060 500# 29 1.0 0.5 0.6 140 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) Q(α ) S(2p) 70 1.0 1.0 50 ∗ 38813 31627 17900.4 2116 13 Be B C N O 4 3070 5 8248.4 6 23668.0 7 35100 8 ∗ 14 Be B C N O F 4 1260 130 5 5848 21 6 13122.74 0.00 7 30617.3 1.0 8 40183 18 9 ∗ 15 Be B C N O F 4 −410# 510# ∗ 5 3733 22 ∗ 6 9394.5 0.8 37950 7 21386.68 0.27 31038.7 8 36399 10 14847.3 9 ∗ 3150 ∗ 41010# 1000# 36635 15 25083.4 1.4 6570.59 0.11 −740# 400# −11280 −11812 −12011.7 −11612.2 −10116.2 −8570# ∗ −14250 70 −12726 1.1 −10991.4 0.5 −10219.7 130 −9950 80 30120 2.2 11216.7 0.4 −19987 1.0 ∗ 10 ∗ Q(ε p) Q(β − n) 70 ∗ 11810 1.1 −40820# 1000# 8490.8 10 −29240 15 −22284.4 −15312.4 1.4 −34774 15823 10 ∗ 70 1.1 1.0 18 150 36930 130 ∗ 15320 130 26 20800 21 ∗ 12467 21 0.4 −4987.46 0.11 −37520 70 −10396.90 0.27 0.4 −29800# 400# −20987.7 1.1 −28320 10 0.4 ∗ −2406.63 0.11 ∗ 570# ∗ 20020# 400# ∗ 39930# 500# ∗ 30 28871 22 ∗ 6 7017.5 0.9 −37370 0.4 −16670 130 −30851 1.1 ∗ −7453.3 140 ∗ 6620 18060# 500# 17881 22 130 −1061.6 0.8 21 −15977.23 0.11 0.5 −37870# 400# 130 ∗ ∗ ∗ 40840 130 32558 21 22334.83 0.00 6761 8 −1411 20 ∗ 43980# −15440# 1000# 31400 −13807 15 18431 −10110.2 3.0 −4997 −7161.92 0.00 −28733 −9083 8 ∗ −10476 28 ∗ 500# 60 4 9 20 ∗ ∗ −43390# −30578 −21899.1 3290 13852 20640# 500# 19140 60 500# 5521 4 23 −5243.3 2.7 0.8 −29580 130 8 ∗ 20 ∗ 17 B 5 1340 170 C 6 4977 17 N 7 8373 15 O 8 19807.1 0.5 F 9 30970 130 Ne 10 ∗ ∗ 43340# 500# 35679 27 25259.9 0.8 12727.68 0.25 973 27 ∗ −14630 −11116 −6358.74 −5818.7 −9076 170 17 15 27 ∗ −43930# −36500 −21792 −11020.9 13909 22010 500# 7284 60 4537 4 −19560 2.6 −30116 27 ∗ 18 B 5 900# 800# C 6 4910 30 N 7 8712 19 O 8 12187.2 0.6 F 9 25949 8 Ne 10 34822 20 Na 11 ∗ ∗ 47330# 500# 38550 60 29054 4 19387.9 2.7 4523.77 0.28 1070 50 ∗ −17450 −12974 −6226.3 −4414.6 −5115.1 −10890# 19 B 5 550# C 6 4760 N 7 8152 O 8 11999.0 F 9 19581.72 Ne 10 30852 Na 11 ∗ Mg 12 ∗ 440# 100 22 2.8 0.26 27 ∗ ∗ 42490 32282 23937 12017.7 3603 −2000 ∗ 43500# 400# ∗ −19800# 510# 29090 100 ∗ 170 −15535 28 17350 16 −43750# 18 −8963.2 2.9 1583.4 2.8 −28880 15 −4013.74 0.07 −14414 12 −21891 0.3 −3529.1 0.6 −31290 250 −4756.0 12 −6270 130 ∗ 4764 250 ∗ ∗ 20430 26370# 11230 800# 8572 30 −5610.1 19 −14875.87 0.7 −30510 12 ∗ 250 ∗ 400# 100 16 2.8 0.29 50 20 C 6 3510 240 N 7 7490 60 O 8 11563.7 0.9 F 9 17033.7 0.5 Ne 10 28501.73 0.28 Na 11 33480 50 Mg 12 ∗ ∗ 45140# 35710 27710 20838.4 8604 2325 −22550# 560# 33760 240 800# −17740 80 21780 60 30 −12322 4 10839.4 1.1 19 −8126.0 2.6 −6865 7 0.6 −4729.85 0.00 −24612 27 7 −6257 11 ∗ 27 −8850 30 ∗ 13620 400# 10360 100 −2786.5 16 −9840.16 2.8 −28040 7 −34260 27 ∗ 240 60 1.1 0.29 12 250 16 Be 4 B 5 C 6 N 7 O 8 F 9 Ne 10 −1580# 520# 2720 60 5468 4 13322.4 2.6 28886.99 0.11 38120# 400# ∗ −10120 19 −10817.0 6 −10647.6 0.5 −9495.1 10 −8223 Q(2β − ) 425 35900 70 21848 15 5920 0.11 −17270 0.4 ∗ 29 ∗ 39210# 800# ∗ 140 25710 30 ∗ 28 12241 19 −37950 0.6 −6098.7 0.7 −29109 0.5 −23320 50 −14287 0.3 ∗ −1163.0 400# ∗ 14950 ∗ −44890# −35910 −23169 −17665.8 1046 8530 170 18 15 8 20 23210# 800# 8980 30 170 5852 19 17 −10804.5 0.7 15 −23659 27 0.3 ∗ 50 ∗ 426 A Elt. G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Z S(n) 21 C N O F Ne Na Mg Al 6 −330# 7 4590 8 3806 9 8101.5 10 6761.16 11 17103 12 14730 13 ∗ 22 C N O F Ne Na Mg Al Si 6 7 8 9 10 11 12 13 14 23 N O F Ne Na Mg Al Si Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) ∗ 51690# 500# −2690# 640# 19600 260 27440 100 3540 140 20990 60 −2848 20 2912 20 11134.0 2.1 −26170# 300# 7328 3 13003.34 0.08 ∗ 6466.42 0.08 2431.2 0.7 ∗ 6775.2 0.8 3226 18 ∗ 8695 20 −1260# 300# ∗ 3790# 390# −1500# 5190 −188 5598.0 −1741.4 −2637.3 −8420 ∗ 950# 100 22 1.9 0.5 0.8 50 ∗ −21420# −11220 −7516 696.1 2588.5 11240 7580# 810# 30 19 0.6 0.9 16 300# 750# 1030# 1280 210 6850 60 5230 13 10364.26 0.04 11069.6 0.8 19379 16 16010# 310# ∗ ∗ 21210# 23260 12558 15266.1 6739.6 5501.8 20# 1240# 540# 110 17 1.8 0.4 1.5 100# 360# −1220# 4480 −1710 4323 −1673.27 −2069.8 −8460 −9990# ∗ 990# ∗ 220 −21680# 60 −17490 13 −7422 0.07 −5713.2 0.5 1951.4 12 3498.0 270# 10900# 4770# 440# 110 21 2.8 0.4 1.4 90# 320# 7 8 9 10 11 12 13 14 1710# 2740 7530 5200.65 12418.7 13148.1 19490# 16460# 360# 130 80 0.10 0.4 1.9 100# 280# 22170# 24710 13240 15236 8794.11 7580.3 122 1700# 950# 47930# 300# 230 20090 120 100 −3440 80 12 −28930# 200# 0.02 ∗ 1.4 ∗ 19 ∗ 220# ∗ 5700# −2290 4400 −272.59 2376.13 −7457 −5940 ∗ 380# ∗ 130 −17300 270 80 −12790 100 0.13 −3305.1 1.1 0.00 −3866.05 0.08 7 7214.6 1.3 30 5568 20 11850# 200# 24 N O F Ne Na Mg Al Si P 7 8 9 10 11 12 13 14 15 −1080# 3610 3840 8868.8 6959.58 16531.1 14898 21090# ∗ 500# 270 110 0.4 0.08 1.3 19 200# ∗ 55960# 400# 4970# 26620# 380# 33000 240 −2260 14340 140 7620 70 8990 16570 80 −16706 19 1966 10553.04 0.13 −40420# 500# 10317.41 11692.68 0.01 ∗ 1959.7 1872 3 ∗ 11051 3304 27 ∗ 3280# −940# 540# ∗ 10540# 990# 6450# 300 −1320 90 4360 12 −1039.9 0.08 2177.72 0.4 −6885.4 3 −6103 100# −10500# 540# ∗ 640# ∗ 250 −21240# 560# 70 −12050 120 1.8 −8368 12 0.09 −2724.2 1.8 0.7 −2555.39 0.04 17 7773.6 2.9 300# 5491 25 11520# 590# 25 N O F Ne Na Mg Al Si P 7 −890# 8 −300# 9 4360 10 4228 11 9011.0 12 7330.58 13 16930.5 14 15002 15 21200# 640# 100# 120 26 1.2 0.03 2.8 22 540# ∗ 65860# 27390# 480# 40640# 15090 260 20190 16960 80 −5932 10695.3 1.3 −28230# 12063.68 0.08 ∗ 2271.6 0.5 ∗ 3408 10 ∗ −830# 200# ∗ 26 O F Ne Na Mg Al Si P S 8 9 10 11 12 13 14 15 16 −200# 1070 5530 5576 11093.07 11365.5 19040 15970# ∗ 140# 190 40 6 0.03 0.5 10 280# 28080# 16460# 18130 12043 14145.7 6306.45 5517 140# 190# 560# 110 12 1.8 0.04 7 30 61310# 900# ∗ 37220 190 5190 310 9680 60 −1770 80 −15390# 90# 9707 12 −40190# 200# 2703.50 0.08 ∗ 12570.3 0.4 ∗ 3466 7 ∗ 11320# 100# ∗ ∗ 500# 260# 100 28 200# 3150# 590# 70 150 5980 80 5604.3 1.8 6912.73 0.04 7421.2 1.5 6570 25 8360# 360# ∗ −240# 390# 7370 160 5270 80 6507.0 1.2 7047.83 0.03 7268.4 1.4 7766 21 5810# 280# 570# 51930# 260# −1120# 480# 310# 30480 170 9910 290 100 7574 27 3580 80 26 −17840# 200# 9800 6 1.2 −42190# 300# 2914.34 0.08 0.05 ∗ 12434.06 0.06 3 ∗ 3623 4 200# ∗ 10930# 200# 360# ∗ 4680# 590# 8090# 270# 6850 −37 3531.0 −3146.3 −3655.2 −9490# −8430# 2180# 8520 1960 3156 −1820.67 −1872.5 −9050 −7940# ∗ 1030# 320# 110 28 1.2 0.4 1.4 90# 280# ∗ −20190# 940# −15120 220 −5750 60 −6505 12 478.29 0.04 1912.7 0.6 9868 10 6340# 220# 390# ∗ 210 −14480# 80 −8540 6 −4550 0.03 −5414.14 1.3 2965.95 19 3976 280# 9850# 7850# 340# 120 80 0.11 0.06 3 200# 360# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) S(2p) 21 C N O F Ne Na Mg Al 6 7 8 9 10 11 12 13 2600# 510# 6750 100 11415 12 14702.8 1.8 23625.85 0.29 31254 12 38270 250 ∗ ∗ 48690# 38940 30488 23644.6 15274.7 5419 1390# 22 C N O F Ne Na Mg Al Si 6 7 8 9 10 11 12 13 14 420# 940# 5870 200 10660 60 13332 12 17125.42 0.02 28173 7 34110 27 ∗ ∗ 23 N O F Ne Na Mg Al Si 7 8 9 10 11 12 13 14 24 N O F Ne Na Mg Al Si P 7 8 9 10 11 12 13 14 15 Q(2β − ) Q(α ) 427 Q(β − n) Q(ε p) 410# 100 17 2.8 0.7 16 300# ∗ 37900# 500# ∗ −20940 200 25300 100 ∗ −15401 21 13795 12 −36780 −10344 15 2136.6 1.9 −29100 −7347.88 0.12 −16642 16 −16818.2 −6560.8 0.7 −28300# 300# −9455.7 −7980 30 ∗ 10663 ∗ ∗ 11980# ∗ ∗ 42850 33550 26400.1 19743.0 7933.0 3240# −20# 3000# 310# 9590 120 12770 80 15564.90 0.11 23488.3 0.7 32527 16 35490# 300# ∗ ∗ 45930# 36500 27795 24060.2 14319.9 5624 1720# 640# 6360 11380 14069.4 19378.3 29679.2 34380# 37550# ∗ 440# 240 70 0.4 0.4 1.3 90# 200# ∗ 48790# 930# 39060 210 29810 60 25789 12 20486.79 0.02 9452.5 2.8 3426 20 760# 510# ∗ 39980# 410# ∗ 24860# 420# −20910 340 25020 240 ∗ 7670 250 −16630 90 15980 70 −38130# 310# 4640 70 −12173.9 1.1 7982.0 0.4 −27850 120 −4493.0 0.4 −10825.63 0.11 −8361.2 2.8 −19040 80 −11015.7 1.3 −9316.55 0.01 −24688 19 −16068.49 0.11 −28774 19 −9330 7 −32050# 500# 2183.9 2.8 −31900# 200# −9240 30 ∗ 8939 20 ∗ ∗ ∗ 17940# 500# ∗ 25 N O F Ne Na Mg Al Si P 7 −1970# 8 3310# 9 8200 10 13097 11 15970.6 12 23861.7 13 31828 14 36090# 15 ∗ 590# 280# 130 26 1.2 1.3 19 200# ∗ ∗ 41700# 310# 31300 120 27270 80 22616.72 0.11 13964.3 0.5 5280 10 2480# 200# ∗ 45230# −20940# 570# 29550# −16400 140 20630 −12596 28 11085 −11735.2 2.2 −441.6 −9885.97 0.05 −17017 −9156.9 0.8 −27790# −9511 19 ∗ −9670# 360# ∗ 26 O F Ne Na Mg Al Si P S 8 9 10 11 12 13 14 15 16 ∗ 43850# 33220 29000 24841.0 18370.14 7789 3550# −640# −19990# −16190 −11280 −12081 −10614.78 −9452.8 −9173 −9640# −8620# −500# 100# 5430 180 9762 27 14587 6 18423.65 0.03 28296.0 2.8 34042 20 37170# 540# ∗ 240 60 1.1 0.7 16 300# 16120# 510# 13380 100 9 12 −1076.9 1.8 −20651 7 −27826 27 ∗ ∗ 250 60 1.1 0.4 1.3 90# 200# ∗ −22710# −18070 −12746 −9668.1 −8481.1 −8139.0 −8430# ∗ 44000# 910# ∗ 29250 190 ∗ 17310 60 −43970# 7976 12 −29750 −7627.8 1.3 −23377 −23370# 90# −12423.9 −32560# 200# −1954.2 ∗ 13080# ∗ 13970# 510# 100 12 1.8 1.3 90# 200# 19960# 910# 15900 190 1260 60 454 12 −13911.9 0.7 −24164 16 −34590# 300# ∗ ∗ 520# 120 12 1.8 1.3 19 200# −23390# 500# 35070# 310# ∗ −20230 160 19770 120 −45960# −14960 80 12860 80 −36000 −10913.8 2.8 319.7 1.3 −21730 −10467.38 0.07 −16299 19 −19612 −9650.1 1.3 −29250# 200# −4738.0 −8582 22 ∗ 4663 −11690# 320# ∗ 16880# 910# 210 60 12 1.3 19 200# 21040# 300# 3750 120 3280 80 −8042.9 0.4 −17204.2 1.3 −31730# 90# −33470# 200# ∗ 430# 240 70 0.4 0.10 3 200# 300# 820# 60 22 0.6 0.7 1.4 110# 510# 260# 100 26 1.3 10 200# ∗ ∗ −43560# −28470 −24210 −14530.3 −7787.0 10469 11640# 410# 240 70 0.4 0.5 10 200# 29360# 11810# 9150 −1761 −3495.6 −21207.2 −27742 −36240# ∗ 940# 35280# 260# 250 25130 170 60 16644 27 14 5348 6 0.03 −9070 3 0.4 −23180# 200# 3 −33120# 300# 220# ∗ 360# ∗ ∗ −45520# −34300# −25420 −21395 −10141.5 −1241 12600# 14860# 530# 260# 100 26 1.2 3 200# 300# 16370# 280# 12310 170 1716 27 −1741 6 −15369.7 0.5 −24106 10 −34090# 200# ∗ ∗ 560# 270# 100 26 1.2 2.8 19 500# 428 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(n) Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) 27 O F Ne Na Mg Al Si P S 8 9 10 11 12 13 14 15 16 −1170# 1420 1430 6726 6443.39 13057.67 13311 19760# 16500# 570# 410 110 7 0.04 0.13 3 200# 360# ∗ 18080# 18490 13236 15013 8271.05 7462.96 861 720# 59540# 460# 42120 200 19450 27 −4800 6 −32130# 0.12 ∗ 0.16 ∗ 27 ∗ 280# ∗ 500# 380 110 27 200# −840# 8200# 6510 7301 5482.0 6706.97 7242.7 6169 9380# 710# 460# 150 26 1.2 0.12 0.5 28 280# 2280# 10720 4370 5298 −1304.48 1600.96 −7463.3 −6610 −9590# 640# ∗ 440 −16970# 130 −6350 4 −7430 0.09 −2988.7 0.12 −3132.14 2.8 7195.67 30 4986 540# 12440# 550# 260 70 0.4 0.14 0.15 26 200# 28 O F Ne Na Mg Al Si P S Cl 8 −820# 9 −230# 10 3900 11 3543 12 8503.3 13 7725.10 14 17179.81 15 14513 16 21540# 17 ∗ 780# 640# 180 14 2.0 0.06 0.15 27 260# ∗ 19020# 20970 15350 16790 9552.76 11585.11 2063 2500 −1730# 68870# 720# 50080# 400 32740 110 6170 4 −19090 0.14 −43410# 0.12 ∗ 3 ∗ 160 ∗ 540# ∗ 600# ∗ 510# 8220# 150 3680 13 9292 160 2554 500# 10074.95 1428.32 10697 3810# 11300# 570# 220 30 6 0.13 0.06 4 250# 590# 2210# 10650# 4840 5983 −796.8 1206.44 −7712.6 −6119 −9940# ∗ 780# ∗ 570# −17630# 180 −10550# 29 −6620 2.3 −7264 0.13 −1846.2 0.5 −2653.57 11 7404 250# 5900 13330# 720# 300# 100 26 1.2 0.03 3 160 540# 29 F Ne Na Mg Al Si P S Cl 9 1000# 10 1260 11 4417 12 3672 13 9436.2 14 8473.57 15 17865 16 15300 17 21490# 770# 310 18 14 1.2 0.02 3 170 540# 20840# 22460# 15870 16919 10485.7 12333.58 2748.8 3290 −1780# 830# 58510# 580# 580# 39950 270 150 19618 13 19 −7460 50 2.3 −31360# 200# 0.13 ∗ 0.6 ∗ 50 ∗ 250# ∗ 6050# 3840 6310 5609 7082.1 6012.42 6142.5 8270 6310# 770# 460 110 14 1.2 0.12 0.6 60 280# 9450# 4650 7099 1107 2863.3 −4820.68 −4944 −9270# −7960# 630# ∗ 320 −12010# 30 −9960 15 −5400 1.2 −5707 0.06 −34.06 3 904.1 200# 9630 360# 7820# 370# 170 30 6 0.03 0.6 50 280# 30 F Ne Na Mg Al Si P S Cl Ar 9 10 11 12 13 14 15 16 17 18 −540# 3030 2375 6363 5728 10609.20 11319.3 18970 16770# ∗ 830# 630 28 16 14 0.02 0.7 50 280# ∗ 24480# 16990 18865 12542 13506.6 5594.5 4399 −310# 350# 810# 270 16 20 1.2 0.3 3 200# 360# 64780# 47530 28562 5152 −20320# −44520# ∗ ∗ ∗ ∗ 600# 570 25 9 200# 300# 5770# 590# 7830 2789 9857 3128.32 12003.0 3807 11080# 4240# 840# 770# 150 16 14 0.13 0.3 4 250# 590# 8810# 3040 6160 1471 3578 −2372.22 −2952.2 −8481 −8240# ∗ 780# ∗ 680 −16210# 110 −10920 9 −10330 14 −4709 0.12 −4199.88 0.3 2642.5 27 3968 280# 10810# 8190# 760# 380 110 14 0.06 0.3 3 200# 360# 31 F Ne Na Mg Al Si P S Cl Ar 9 10 11 12 13 14 15 16 17 18 690# 840# 330# 1070# 3780 210 2378 15 7153 25 6587.40 0.03 12311.6 0.4 13053 3 19580# 200# 16860# 360# ∗ 71240# 25350# 1080# 53790# 17740 610 37100 18867 28 15827 13332 22 −7890 14366 14 −34240# 7296.93 0.19 ∗ 6133.0 1.5 ∗ 290 50 ∗ 440# 280# ∗ 600# 900# 210 12 50 210# 32 Ne Na Mg Al Si P S Cl Ar K 10 1640# 1210# 11 1660 410 12 5809 21 13 4180 90 14 9203.22 0.03 15 7935.65 0.04 16 15042.4 1.5 17 14330 50 18 21560# 210# 19 ∗ ∗ 7300# 840# ∗ 1260# 1070# 2480# 1040# −17360# 1080# 5310 340 6270 260 −14930# 550# 4828 18 2636 18 −8820 150 6376 25 4929 20 −8318 24 5977.1 1.2 −1234.51 0.14 −2284.0 2.0 8164.97 0.18 1915.97 0.18 −1944.04 0.23 8618.8 1.6 −7022 4 8094.6 1.5 6800 70 −6280 170 5740 50 8860# 280# −10400# 540# 12870# 260# 26300# 1000# 61360# 800# −910# 1000# 1850# 19070# 970# 43370 360 6670 670 5870 20900 210 25061 18 1390 30 1244 15130 90 2270 90 8560 90 4420 16416 20 −21880.7 1.8 2502 14 −1001.5 8645.18 0.19 −44720# 500# 10838.52 0.19 2453.88 8863.78 0.21 ∗ 4895.7 0.3 −4199.0 1574 7 ∗ 11444 7 −5310 2420 50 ∗ 4070# 200# −10480# −1840# 540# ∗ 11050# 590# ∗ 990# ∗ 450 −15590# 22 −13370 90 −8080 1.2 −7815 0.19 −443.5 0.6 1525.75 50 9269 200# 6610 12920# 680# 270 90 14 1.2 0.14 7 50 540# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) S(2p) 27 O F Ne Na Mg Al Si P S 8 9 10 11 12 13 14 15 16 −1370# 2490 6960 12302 17536.46 24423.1 32351 35730# ∗ 570# 390 110 4 0.05 0.5 10 200# ∗ 46160# 34950# 31370 27057 22416.8 13769.42 6379 860# 630# 280# 100 26 1.2 0.15 26 200# 28 O F Ne Na Mg Al Si P S Cl 8 9 10 11 12 13 14 15 16 17 −1990# 1190# 5330 10270 14946.7 20782.77 30491 34270# 38040# ∗ 650# 540# 150 14 2.0 0.14 3 200# 340# ∗ ∗ 39050# 33840 30026 24566 19856.16 9526 3360 −1010# 29 F Ne Na Mg Al Si P S Cl 9 10 11 12 13 14 15 16 17 770# 690# 5150 290 7960 14 12175 14 17161.3 1.2 25653.38 0.15 32378 26 36850# 210# ∗ ∗ 41470# 36840 32270 27276 21886.34 14333.9 5350 720# 30 F Ne Na Mg Al Si P S Cl Ar 9 10 11 12 13 14 15 16 17 18 470# 4290 6792 10035 15165 19082.76 29184 34280 38260# ∗ 790# 590 28 9 14 0.03 3 160 540# ∗ 45330# 39440# 34730 29461 23992.2 17928.1 7148 2980# −1430# 31 F Ne Na Mg Al Si P S Cl Ar 9 10 11 12 13 14 15 16 17 18 150# 3360# 6150 8741 12881 17196.59 23630.9 32030 36350# ∗ 150# 940# 210 18 20 0.03 0.6 50 200# ∗ ∗ 42220# 35850 32197 26908 20803.5 11727.5 4690 130# 32 Ne Na Mg Al Si P S Cl Ar K 10 11 12 13 14 15 16 17 18 19 1970# 5440 8187 11330 15790.61 20247.3 28096 33920# 38430# ∗ 980# 360 20 90 0.04 0.4 3 200# 300# ∗ 44420# 690# 38630 570 34000 90 29748 8 23011 14 16160.71 0.14 7707 7 2716 3 −1400# 540# Q(α ) ∗ −15890# −9970 −11270 −11857.52 −10091.72 −9335.4 −9910 −8650# Q(2β − ) 429 Q(ε p) 37880# 480# 30440 160 21660 80 11679 0.12 −2202.35 0.12 −16480 1.3 −29930# 30 ∗ 280# ∗ 520# 380 110 4 0.16 26 200# ∗ ∗ −35930# 280# −31080 170 −22305 27 −17623 6 −3458.69 0.15 4204 26 17400# 200# ∗ −16740# 300# −10250 170 −10970 27 −11492.0 6 −10857.24 0.03 −9984.14 3 −9527 160 −9110 540# −7870# 42610# 650# 34220# 280 26260 70 15861 2.0 6474.2 0.15 −9692 0.01 −25570 4 −33720# 160 ∗ 710# ∗ 610# 510# 150 13 2.0 3 160 500# 570# 380 110 4 0.05 0.6 50 200# −18630# −11810# −11030 −10936 −11282.4 −11127.14 −10461.4 −9410 −8150# 770# 37630# 370# 28680 100 20880 29 11276 1.7 −1262.7 0.04 −18740 0.8 −30100# 50 ∗ 280# ∗ 830# 510# 150 19 2.0 0.3 3 200# 340# ∗ −15040# −12340 −11765 −11435 −10643.26 −10415.2 −9343 −8960# −8310# 620# 270 24 14 1.2 1.5 50 210# Q(β − n) 18610# 16430 5860 2626 −10447.66 −18123 −31430# −34760# ∗ 530# 380 110 4 0.07 3 200# 300# ∗ ∗ −41000# −33210 −29380 −18622 −14195.12 2749 9170 19990# 20850# 18090# 520# 8690 380 5526 110 −5893.3 4 −12537.46 0.05 −28847 3 −32770# 160 ∗ 500# ∗ 710# 520# 150 13 2.0 0.11 26 200# 580# 270 13 14 1.3 50 200# ∗ −43080# −37850# −29150 −24515 −14165.4 −7391.2 11040 13010# 650# 510# 150 13 2.0 0.6 50 200# 20980# 10980 9612 −1840 −4793.8 −22808 −29100 −37790# ∗ 600# 270 13 14 1.2 3 160 510# 40540# 630# 32010 170 24234 28 15522 15 4328 0.04 −10370 0.3 −24640# 4 −34150# 280# ∗ 420# ∗ 600# 570 29 8 14 3 200# 300# ∗ ∗ −39220# −34260 −25826 −21103 −9274.2 544 14110# 15950# 580# 270 19 14 1.2 3 200# 300# 22770# 12370 10909 1233 −2049 −15551.6 −25110 −35280# ∗ ∗ 650# 570 29 8 14 0.6 50 200# ∗ 43630# −16540# 1030# 34060# −14700 430 27610 −12710 110 19732 −11861 21 9487 −10787.27 0.06 −3904.4 −9669.14 0.22 −17370 −9085.3 1.5 −30340# −8780 60 ∗ −8680# 290# ∗ 630# 900# 210 12 20 1.5 50 210# ∗ ∗ −43540# −33610 −30600 −21327 −15857 −1900.7 5840 18070# 630# 570 30 8 14 1.5 50 210# 25120# 14410# 13490 4584 1408 −10819.7 −18450 −31560# −35220# ∗ 830# 900# 210 19 20 0.3 3 200# 300# ∗ −44510# −39090# −31010 −28152 −16641 −10355.66 3822 9555.5 20200# 16550# 830# 700# 14210 360 900# 5928 27 230 3820 90 12 −7711.34 0.19 20 −13331.9 1.5 0.14 −27020 50 7 −32690# 210# 2.3 ∗ 510# ∗ −19000# 1000# 38230# 800# −16590# 620# 30130 370 −14620 150 23126 18 −12500 90 13240 90 −11487.2 2.0 1934.79 0.15 −9879.69 0.23 −10975 7 −6947.82 0.14 −23815.5 1.8 −8596 7 −33750# 500# −8700 160 ∗ −8560# 710# ∗ 430 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(n) S(p) Q(4β − ) Q(d,α ) 33 Ne Na Mg Al Si P S Cl Ar K 10 11 12 13 14 15 16 17 18 19 −650# 1130# 2250 940 2222 26 5540 110 4483 16 10103.6 1.1 8641.61 0.03 15745 7 15255.3 1.8 21730# 540# ∗ 66490# 800# 19680# 1190# 51230 870 21460 360 31480 20 14860 70 12470 70 16720 90 −11109 16 9545.6 1.1 −33100# 200# 9569.75 0.22 ∗ 2276.7 0.4 ∗ 3343 7 ∗ −1670# 200# ∗ 34 Ne Na Mg Al Si P S Cl Ar K Ca 10 11 12 13 14 15 16 17 18 19 20 950# 1140# 200# 200# 4160 230 2470 130 7535 21 6291 5 11417.11 0.09 11507.7 0.5 17064.4 0.5 16320# 360# ∗ ∗ 73080# 810# ∗ 20530# 1200# 57320# 900# 6190# 1200# 23370 910 38740 230 450 420 15120 110 21510 110 8730 110 18720 70 −1580 14 1820 90 11354 17 −23080# 300# 10234 5 10883.3 1.1 −43080# 300# 5084.24 0.21 5142.75 0.12 ∗ 12286.73 0.13 4662.8 0.6 ∗ 5663 7 −610# 300# ∗ 11430# 300# 900# 360# ∗ 3450# 590# 35 Na Mg Al Si P S Cl Ar K Ca 11 12 13 14 15 16 17 18 19 20 1250# 730# 5270 2470 8371 6985.88 12645.08 12741.5 17760# 16620# 300# 460# 210 40 5 0.04 0.18 0.8 300# 360# 20830# 1240# 64440# 23900# 980# 45000# 16230 290 28880 18720 120 8690 12190 14 −13689 11578 5 −33450# 6370.72 0.10 ∗ 5896.6 0.8 ∗ 81 20 ∗ 1210# 360# ∗ 950# 400# 180 40 20 200# 36 Na Mg Al Si P S Cl Ar K Ca Sc 11 12 13 14 15 16 17 18 19 20 21 −300# 2800# 2160 6190 3465 9889.04 8579.63 15255.4 14329 19110# ∗ 100# 640# 280 130 13 0.21 0.06 0.7 21 200# ∗ 68200# 25450# 1070# 52090# 17660# 450# 35300 19640 210 17750 13180 40 −2825 13095.3 1.9 −24220 7964.47 0.11 −43420# 8506.97 0.05 ∗ 1668 8 ∗ 2560 40 ∗ −2010# 540# ∗ 950# 5540# 1250# 500# −630# 1030# 210 7680 320 120 1160 170 15 10417 19 40 4604 5 500# 11120.74 0.12 4919.04 0.18 11662 8 5750# 300# 11460# 590# 37 Na Mg Al Si P S Cl Ar K Ca Sc 11 12 13 14 15 16 17 18 19 20 21 750# 180# 250# 1030# 3910 390 2170 210 6810 40 4303.60 0.06 10310.99 0.08 8787.44 0.21 15445 8 14790 50 19130# 590# ∗ 74270# 25990# 1310# 56150# 18770# 600# 41710 19650 270 24370 13800 130 5810 13934 13 −13735 8386.43 0.19 −34600# 8714.77 0.22 ∗ 1857.63 0.09 ∗ 3025 24 ∗ −1990# 300# ∗ 960# 900# 330 170 40 22 300# 420# 1000# 4760# 1260# 2950 210 5400 70 5172 26 7322.3 1.1 8565.70 0.21 8752.0 1.6 8390 50 6180# 280# Q(p,α ) 1960# 6650 1400 5250 244 2959.5 −1521.4 −2077 −8960# −8460# 1000# 1040 30 70 21 1.1 0.3 3 200# 360# Q(n,α ) ∗ −18370# 1060# −12560 570 −11240 80 −5936 18 −4819 14 3493.33 0.14 4843.5 0.6 10325 3 7970# 280# 1700# 1000# ∗ 6780# 1270# −17880# 1080# 1020 310 −16390# 930# 5150 110 −9940 240 −139 25 −11093 19 3255 5 −3958 21 −626.85 0.20 −1336.38 0.11 −531.1 1.5 5647.51 0.24 −6450 50 6313.8 1.6 −7910# 360# 11230# 300# ∗ 7510# 360# 4300# 1240# 7170# 1240# ∗ 1970# 960# 1950# 540# −15480# 5690 180 5690 180 −13550 4880 80 1570 90 −7760 6346 16 4087.2 1.9 −8150 8201.9 1.1 322.92 0.20 880.95 8283.26 0.13 1866.21 0.13 938.08 8666.8 0.9 −4854 7 8614.7 8926 20 −4105 20 7807 8550# 280# −10950# 540# 12450# 900# 400 40 90 0.11 0.19 0.8 21 200# 6820# 1240# ∗ 1400# 1010# −18930# 5750 220 −13460 910 140 −11730 5106 21 −6080 537.5 1.1 −4525 1928.19 0.15 2462.0 −4364.1 0.5 2000.86 −3178 8 9224 −8340# 200# 8590 ∗ 12780# 950# 900 120 70 16 1.1 0.14 8 40 540# ∗ 380# 1310# 4510# 520# 4260 240 6080 50 8672.2 1.9 7795.63 0.11 8776.69 0.21 8958.0 0.8 8720 30 8950# 360# 7020# 1250# ∗ 1350# 1270# −18230# 1210# 6000 400 −17170# 960# 1220 200 −9740 290 5830 40 −10420 120 2525 5 −1293 14 3034.31 0.12 −1557 5 −1643.83 0.27 4630.53 0.23 −1558.9 0.4 5285.98 0.20 −6820# 300# 10862 22 −5450# 420# 9970# 420# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) S(2p) Q(α ) 33 Ne Na Mg Al Si P S Cl Ar K 10 11 12 13 14 15 16 17 18 19 990# 1210# 3910 900 8031 23 9720 80 13686 16 18039.2 1.1 23684.0 1.5 30080 50 36820# 210# ∗ ∗ 45980# 40530# 35760 31853 25962 18214.93 11140.5 4917.4 750# 34 Ne Na Mg Al Si P S Cl Ar K Ca 10 11 12 13 14 15 16 17 18 19 20 300# 2450# 6380 8010 12018 16395 20058.73 27253 32319.6 38040# ∗ 100# 970# 230 140 14 5 0.09 7 1.8 590# ∗ ∗ 43050# 36570 33580 28070 20428.82 14712.50 6939.5 2730# −780# ∗ −18570# 830# −16720 370 −13720 23 −13471 90 −11110 0.12 −7923.78 0.25 −6664.1 0.4 −6740 300# −8350# 300# −9360# 35 Na Mg Al Si P S Cl Ar K Ca 11 12 13 14 15 16 17 18 19 20 1450# 4890# 7740 10010 14662.9 18403.00 24152.7 29805.9 34070# ∗ 360# 400# 190 40 2.2 0.10 0.5 0.9 200# ∗ 44420# 39600 33830 30910 22932 17254.0 11039.4 4743 590# 900# 890 40 70 16 1.1 0.8 20 200# −19130# −17120# −15210 −13570 −12329 −8322.27 −6997.57 −6427.7 −6530 −9120# 36 Na Mg Al Si P S Cl Ar K Ca Sc 11 12 13 14 15 16 17 18 19 20 21 950# 3530# 7430 8670 11836 16874.92 21224.72 27997.0 32090# 35740# ∗ 320# 550# 240 120 14 0.22 0.19 0.4 300# 300# ∗ 46280# 41560# 35870 31900 25285 19542 14877.69 7564 2640 −800# 950# 920# 260 110 14 5 0.11 8 40 590# ∗ −18280# −15710 −13950 −11610 −9008.08 −7641.55 −6640.76 −6521 −6660 −8950# 37 Na Mg Al Si P S Cl Ar K Ca Sc 11 12 13 14 15 16 17 18 19 20 21 450# 3050# 6070 8360 10280 14192.64 18890.63 24042.9 29774 33910# ∗ 150# 990# 370 170 40 0.22 0.06 0.8 20 200# ∗ ∗ 44210# 37310# 33440 27110 21481.7 16679.24 10364.60 4692 570# 1060# 900# 220 20 20 0.14 0.5 1.6 200# Q(2β − ) ∗ 41100# −17830# 1050# 33420 −15590 270 25387 −13620 70 17810 −12299 21 6093 −10547.1 1.6 −5334.1 −7115.86 0.14 −17201.9 −6475.7 0.8 −27770# −8650 50 ∗ −8810# 280# ∗ ∗ −19170# 1000# −17370 440# −13900 180 −12890 40 −8829 1.9 −7849.0 0.23 −6786.58 0.10 −6221.7 22 −6203 300# −6350# 431 Q(β − n) Q(ε p) 800# 880 25 70 16 1.2 0.5 200# ∗ ∗ −39670# 800# −34880 360 −26827 24 −22560 90 −9794.06 0.14 −3987.2 0.5 9342.6 0.5 12800# 200# 44310# 1080# 35690# 620 28770 120 21630 16 9975 15 −118 0.11 −11554.6 0.4 −22960# 3 −31530# 360# ∗ 420# ∗ 840# 910# 230 110 14 5 0.4 300# 300# ∗ ∗ −44480# −35110 −32140 −23320 −16728 −5391.3 919.8 12230# 15250# 20160# 1190# 19800# 900# 830# 9270 240 880 9490 110 24 −1691 14 70 −6043 5 16 −16999.7 0.4 1.1 −23127.0 0.5 0.4 −33210# 200# 300# ∗ 300# ∗ 1120# 39710# 990# 30510# 270 24730 40 14490 20 4155.8 0.11 −5798.9 0.19 −17845 1.7 −27650# 50 ∗ 280# ∗ 960# 400# 180 40 1.9 0.8 20 200# ∗ −44260# −40180# −30460 −29210 −16179 −11745 −404.6 5982 15690# 900# 910# 230 110 14 5 0.8 20 200# 22700# 11010# 11760 2130 −2997.3 −12477.90 −18707.6 −29640# −32390# ∗ 970# 420# 180 40 1.9 0.15 0.4 300# 300# 980# 520# 220 120 13 0.19 8 40 500# ∗ ∗ −41090# −35920# −27410 −23590 −11953.1 −8674.15 4298 9320 17780# 23730# 13480# 970# 12070 420# 4300 180 524 40 −9721.85 1.9 −14545.8 0.10 −27134 8 −30100# 40 ∗ 500# ∗ 1030# 530# 220 120 13 0.19 0.7 20 200# 45330# 1010# 1210# 35830# 920# 940 28940 330 170 20320 170 80 12770 40 16 4051.30 0.28 1.1 −6961.33 0.11 0.25 −17786 22 0.5 −27640# 300# 22 ∗ 360# ∗ ∗ ∗ −45300# −35290# −32070 −21700 −18800 −7572.55 −2567.31 9781 12980# 25780# 15400# 1010# 14360 530# 5600 220 3600 120 −5445.82 13 −9601.31 0.27 −21593 0.12 −26430 22 −35130# 300# ∗ 1080# 930# 350 170 40 0.20 0.05 8 40 500# 42170# 950# 33910# 420 26030 120 18180 90 9271 0.20 −432.53 0.20 −12096 0.14 −23790 10 −31320# 40 ∗ 710# ∗ 18860# 17770 7880 7480 −4259 −8393.1 −21328 −26874.5 −37870# ∗ 880# 880 90 70 16 1.1 7 1.8 500# 432 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(n) S(p) Q(4β − ) Q(d,α ) Q(p,α ) Q(n,α ) 500# −2250# 1080# 280# 1070# ∗ 730 5340# 890# 4760# 830# −17890# 140 860 250 930 220 −14570# 100 8440 160 4470 110 −8980 8 4101 15 2861 7 −6850 300# 11576.78 0.20 3912.31 0.14 706.0 250# 5518.1 0.3 −837.0 0.3 −221.8 12141.7 0.4 −889.2 0.9 5859.3 6078 9 −6026 21 6635 12210# 300# −4670# 360# 11880# 5910# 560# ∗ 10150# 38 Mg Al Si P S Cl Ar K Ca Sc Ti 12 13 14 15 16 17 18 19 20 21 22 2320# 1030# 1970 800 5560 220 3830 110 8036 7 6107.88 0.08 11838.2 0.4 12071.8 0.5 16969 23 15850# 420# ∗ 27570# 1080# 61860# 20490# 1160# 45850 21300 360 30650 15470 200 14040 15160 40 −4802 10190.71 0.21 −24860# 10242.0 0.3 −43820# 5142.0 0.5 ∗ 4548 5 ∗ −940# 300# ∗ 1030# 390# ∗ 39 Mg Al Si P S Cl Ar K Ca Sc Ti 12 13 14 15 16 17 18 19 20 21 22 −500# 2730 2080 6190 4370 8073.4 6599 13077.6 13286 17300# 15670# ∗ 66730# 520# −1000# 1090# 480# 1080# ∗ 20890# 1560# 51200 1470 2860# 1730# 4840# 1560# −20910# 1750# 21410 800 35170 340 2690 470 1010 400 −13850# 610# 16100 170 20930 100 4420 200 4470 160 −13010 240 15690 110 4110 50 6540 60 1950 50 −5030 130 10228 7 −15632 24 7807.0 1.7 5727.9 1.7 −3903 13 10733 5 −34740# 210# 9230 5 1144 5 3068 5 6381.43 0.29 ∗ 7851.45 0.28 1288.58 0.19 1361.25 0.20 5762.7 1.9 ∗ 8236.6 1.9 −4984 8 8603.5 1.9 −602 24 ∗ 9700 30 −2860 50 8905 25 850# 360# ∗ 9370# 360# −7530# 540# 13590# 210# 40 Mg Al Si P S Cl Ar K Ca Sc Ti V 12 1400# 1040# 13 170# 1630# 14 4530 650 15 3300 170 16 7780 150 17 5830 30 18 9869 5 19 7799.51 0.07 20 15643.2 1.9 21 14427 24 22 18420# 260# 23 ∗ ∗ 73100# 21560# 870# 56850# 23220 1570 40510 17320 370 25430 17280 180 11980 11680 60 −7030 12528.7 1.7 −26190 7582 5 −43870# 8328.23 0.09 ∗ 538 3 ∗ 1970 160 ∗ −1540# 540# ∗ 41 Al Si P S Cl Ar K Ca Sc Ti V 13 14 15 16 17 18 19 20 21 22 23 1660# 1060# −20 1930 5240 260 4220 180 7820 80 6098.9 0.3 10095.19 0.08 8362.80 0.13 16190.5 2.8 14920# 190# 18610# 540# 21820# 1210# 63010# 800# 23020# 1970# 46630 1840 18030 600 30280 220 18200 180 16120 120 11730 160 1340 70 12800 30 −17370# 100# 7808.15 0.19 −35350# 210# 8891.52 0.17 ∗ 1085.09 0.08 ∗ 2470# 100# ∗ −1360# 260# ∗ 42 Al Si P S Cl Ar K Ca Sc Ti V Cr 13 14 15 16 17 18 19 20 21 22 23 24 100# 1210# 3200# 1910# 1860 500 6730 170 5680 160 9427 6 7533.80 0.11 11480.63 0.06 11550.16 0.16 17490# 100# 16040# 280# ∗ ∗ 68590# 24560# 950# 52860# 19910 1900 35960 19690 250 20870 13180 190 7210 14400 70 −9301 9243.1 0.4 −26850# 10276.97 0.19 −44540# 4272.45 0.12 ∗ 3768 5 ∗ −240# 220# ∗ 1100# 360# ∗ 100# 1640 360 150 50 1.7 5 0.4 5 300# 320# 920# ∗ 700# 5010# 560 130 140 6670 140 2600 30 10010 160 5469.01 500# 11890.15 4665.2 12247 6800# 11940# −180# 1320# 860# 4910# 1140# 920 380 650 200 3340 220 180 990 150 30 4200 30 0.10 1585.69 0.05 0.30 2276.51 0.28 0.4 −5182.02 0.23 5 −2497 23 340# −6830# 340# 560# ∗ 2850# 950# 2880 2360 3510 400 4570 160 6570 80 7443.5 1.8 8394 5 9380.06 0.16 9342.8 1.9 9180# 100# 9010# 290# 5570# 2380 3650 600 4420 1594.7 4019.5 −1473.0 −1719 −5900# −4440# 950# 1980 260 160 70 0.3 0.3 0.4 5 310# 320# 1200# 420# 200 40 1.9 0.4 0.4 5 300# 320# ∗ −20330# 1190# −18140# 1060# −12410 360 −10640 220 −2920 50 −2497.13 0.20 3872.73 0.20 1747.79 0.29 9923.4 2.8 9960 160 13140# 590# ∗ −15790# 1910# −15680 760 −9310 180 −6900 120 −560 7 −114.57 0.22 5223.2 0.3 5804.7 0.4 12010# 100# 10380# 360# 920# 4150# 1280# 4970# 1040# ∗ 500# −150# 860# 1900# 1560# −19490# 720# 450 6180 710 3870 560 −14810 1540 120 1140 190 60 160 −13960 360 140 8660 200 3110 150 −6390 180 8 3850 30 242 6 −5610 50 200# 10729.15 0.22 3085 5 425.0 1.7 300# 5698.94 0.18 123.99 0.17 341 5 13435.84 0.18 17.2 1.9 7332.17 0.19 6112 6 −6089 25 7799 6 11390# 250# −4810# 280# 11650# 200# 6370# 590# ∗ 10140# 360# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) S(2p) Q(2β − ) Q(α ) ∗ 46480# 1200# 40070# 520# 35120 240 28960 120 24125 13 18628.4 0.4 13856.8 0.5 6406 5 2090# 300# −960# 260# −20550# 950# 39060# −19140# 1160# 30810 −15300 270 22790 −14250 150 15040 −9329 16 7853 −7665 5 −997.4 −7207.7 0.4 −12655 −6785.8 0.5 −23860# −6107 5 −31160# −5880# 420# ∗ −6480# 390# ∗ ∗ 48460# 41900# 37400 31160 25380 20924 16623.42 10904.7 3946 −80# ∗ −20610# −16650# −15170 −11230 −7367.4 −6821 −7218.39 −6651.9 −5420 −5530# 38 Mg Al Si P S Cl Ar K Ca Sc Ti 12 13 14 15 16 17 18 19 20 21 22 2570# 5870 7730 10650 12340 16418.87 20625.6 27517 31760 34980# ∗ 710# 760 180 100 7 0.12 0.3 8 40 590# 39 Mg Al Si P S Cl Ar K Ca Sc Ti 12 13 14 15 16 17 18 19 20 21 22 1820# 4690 7630 10020 12410 14181.3 18437 25149.45 30255 33150# ∗ 1040# 1510 380 110 50 1.7 5 0.21 22 300# 40 Mg Al Si P S Cl Ar K Ca Sc Ti V 12 13 14 15 16 17 18 19 20 21 22 23 900# 1030# 2900# 1010# 6610 570 9490 170 12150 140 13900 30 16468.0 0.3 20877.1 0.4 28930 5 31730# 300# 34090# 300# ∗ ∗ ∗ 44110# 38740 33380 27380 22757 18315.05 14709.7 6300.5 1370 −690# 41 Al Si P S Cl Ar K Ca Sc Ti V 13 14 15 16 17 18 19 20 21 22 23 1840# 4510 8550 12000 13650 15968 17894.70 24006.0 30617 33340# ∗ 1680# 1880 240 130 70 5 0.10 1.9 24 230# ∗ 44580# 41250 35530 29010 24480 20336.8 16474 9413.32 3000# 620# 1910# 1490 360 120 50 1.7 5 0.12 100# 210# −22000# −18110# −17650 −14860 −10740 −8596.0 −6222.46 −6615.0 −6267.11 −4960# −5470# 42 Al Si P S Cl Ar K Ca Sc Ti V Cr 13 14 15 16 17 18 19 20 21 22 23 24 1760# 3180# 7100 10950 13500 15525 17628.99 19843.43 27740.6 32410 34640# ∗ 1140# 750# 470 190 150 6 0.13 0.14 2.8 160 540# ∗ 46380# 42940# 37720 31380 26130 22040 18085.12 13163.98 4853 2220# −260# 1030# 830# 570 200 140 30 0.25 0.20 5 200# 340# ∗ −18990# −17540 −16040 −12580 −9986 −7648.37 −6257.4 −5745.5 −5487 −5660# −5540# 1760# 970# 350 180 40 5 0.20 1.9 24 210# ∗ −21080# 750# −18380# 740 −16310 200 −12810 110 −9730 7 −6800.74 0.21 −6438.26 0.3 −7039.65 2.9 −5522 160 −4840 590# −5990# 520# 740 140 100 7 0.5 5 300# 250# 433 Q(β − n) Q(ε p) ∗ 16980# −46510# 1210# 14560 −40610# 910# 6860 −31990 350 4070 −27570 170 −3171 −18090 40 −6921.76 −15107.2 0.4 −17985.7 −4328.1 0.4 −23710 1599 5 −32970# 12570# 300# ∗ 14970# 250# ∗ 600# 750 140 100 7 0.22 0.3 22 300# 41640# 610# 1750# 34270 1480 520# 25090 340 200 16930 100 60 10080 50 2.5 4006.8 1.7 5 −5968 5 0.19 −19639 24 2.0 −28770# 210# 30 ∗ 280# ∗ ∗ ∗ −40360# −36210 −26380 −22330 −13670 −11297.88 151.2 7344 16270# 44770# 1180# 37400# 750# 28330 260 19450 190 12170 30 5980 0.19 −193.62 0.20 −13012.0 0.21 −26000 8 −30850# 160 ∗ 710# ∗ ∗ 20770# ∗ 19300# −45390# 760# 10270 −36790 1480 6980 −32080 370 −1140 −21970 110 −2390 −19170 50 −9304.20 −11024.0 1.7 −14332.1 −8893 5 −28750 5994.8 2.8 −30090# 11140 160 ∗ 17210# 500# ∗ 1730# 780# 570 150 140 30 0.19 1.9 24 210# 1250# 40980# 830# 2050# 32580 1850 400 22030 230 210 14050 120 80 8250 70 0.4 2070.3 0.4 0.20 −6916.68 0.16 0.3 −19440# 100# 0.24 −28440# 210# 100# ∗ 360# ∗ ∗ −43960# −41860# −31780 −26490 −17490 −15290 −7386.83 −2396.16 11860# 13030# 2050# 730# 570 160 140 30 0.24 0.14 100# 210# 22170# 13600 9520 470 −340 −7603.6 −8784.12 −22685.8 −27860 −34100# ∗ 980# 1850 260 120 70 0.4 0.13 2.8 160 510# 42740# 36110# 25850 16750 10110 4124 −2900.32 −13426 −23950# −31110# ∗ ∗ ∗ ∗ −42050# −38530 −26930 −22690 −15000 −12768.6 −3851.14 2727 13180# 14400# 22040# 15640# 920# 11890 1850 1560 260 80 120 −6935 70 −7955.11 0.4 −17976.00 0.21 −24490# 5 −32990# 200# ∗ 310# ∗ 2050# 550# 460 140 140 6 0.21 0.16 100# 210# 710# 860 190 180 9 0.24 0.3 0.5 7 360# 390# 1060# 710# 570 140 140 30 0.21 2.8 160 500# 1010# 520# 470 120 140 6 0.24 5 200# 300# 19450# 890# 17390 1480 610# 8610 350 740 5920 100 150 −1440 50 100 −3157.0 1.8 9 −12513 5 0.21 −19819 5 1.9 −30410# 300# 24 −31340# 250# 210# ∗ 434 A Elt. G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(p) Q(4β − ) Q(d,α ) Z S(n) 43 Si P S Cl Ar K Ca Sc Ti V Cr 14 15 16 17 18 19 20 21 22 23 24 −190# 860# 3240 1070 2360 240 7330 210 5658 8 9643 9 7932.88 0.17 12138.0 1.9 12271 9 17930# 300# 16190# 370# 24270# 1140# 58710# 19960# 1090# 42360 20190 490 26440 13780 200 12020 14390 140 −2689 9460 11 −18570# 10676.05 0.28 −36280# 4929.8 1.9 ∗ 4489 7 ∗ 190# 230# ∗ 1250# 290# ∗ 700# 970 200 160 9 230# 220# 44 Si P S Cl Ar K Ca Sc Ti V Cr Mn 14 15 16 17 18 19 20 21 22 23 24 25 1920# 1060# 1740# 1190# 5220 440 4130 190 8735 6 7290 40 11131.16 0.23 9699.5 2.6 16299 7 14160# 260# 19400# 230# ∗ ∗ 21890# 22170 15550 15790 11090 12164 6696.4 8649.5 2080 2730# −1240# 990# 1050 230 160 40 9 1.7 2.0 120 240# 550# 65520# 47910# 32350 17590 4875.4 −11690 −28010# −44220# ∗ ∗ ∗ ∗ 800# −120# 700# 4380# 390 660 110 8160 1.7 2950 130 9320 50# 4263.9 500# 11441.8 5283.6 11720 5420# 11120# 45 P S Cl Ar K Ca Sc Ti V Cr Mn Fe 15 16 17 18 19 20 21 22 23 24 25 26 2270# 1060# 2210 1790 6200 160 5168.9 1.7 8870 40 7414.79 0.17 11323.0 1.9 9528.6 1.2 15830 120 13580# 510# 19590# 590# ∗ 22230# 22640# 16540 16830 11224 12290 6888.3 8478.6 1620 2140 −1060# 110# 1130# 1880# 410 110 10 40 0.8 2.0 17 520 300# 550# 54510# 800# 37560 1740 22710 120 9235.1 1.1 −4729 20 −21850 500 −35950# 300# −52590# 220# ∗ ∗ ∗ ∗ 46 P S Cl Ar K Ca Sc Ti V Cr Mn Fe 15 16 17 18 19 20 21 22 23 24 25 26 470# 1210# 4120# 1880# 4420 730 8020 40 6881 18 10394.4 2.3 8760.64 0.10 13189.0 0.8 13265 17 18580 500 15330# 320# 20900# 420# ∗ 24490# 18740 18650 12937 13816 8234.1 10344.6 5356.2 4883 690# 1420# 1060# 1880 130 16 10 0.8 0.6 1.0 26 520# 460# 60920# 43830# 27050 14400 1655 −13661 −29390# −44880# ∗ ∗ ∗ ∗ 47 S Cl Ar K Ca Sc Ti V Cr Mn Fe Co 16 17 18 19 20 21 22 23 24 25 26 27 770# 1060# 3880# 930# 4260 110 8349 16 7276.36 0.27 10646.3 2.0 8880.29 0.29 13000.4 0.6 13156 24 17960# 190# 15450# 440# ∗ 24790# 1210# 50340# 18500# 920# 33820# 18490 720 19020 13270 40 6306 14211 16 −7782 8486.0 1.2 −22070# 10464.2 0.7 −38310# 5167.60 0.07 −52710# 4774 14 ∗ 80# 160# ∗ 1540# 280# ∗ −2660# 620# ∗ Q(p,α ) 1700# 1060# 2270# 990# 2910 2080 5160 1120 4020 300 1010 250 5560 200 3560 210 6010 70 410 30 7185 9 3311 9 7861.24 0.25 −9.38 0.25 9660.6 1.9 3522.4 1.9 10032 7 −3934 7 8390# 250# −4310# 280# 8780# 300# −7600# 550# Q(n,α ) −17890# 1140# −17880# 1190# −11790 590 −10410 210 −3500 140 −3390 30 2277.7 0.3 2993.7 1.9 11172 7 8150# 230# 12360# 270# 1210# 860# 600 160 140 40 0.4 1.7 0.7 120 200# 590# 2000# 3400# 1020 3650 −500 2120 −1045.4 2185.7 −4042.0 −3550# −8390# ∗ 1130# 1970# 450 160 70 40 0.3 1.8 0.7 160# 210# ∗ −17960# 1060# −17030 1890 −9310 240 −8010 120 −2860 80 −2754.6 0.5 3389.4 1.8 3235.7 0.7 10170 120 7890# 110# 12250# 540# 1920# 1690 4310 5110 6112 6492 8051.7 7893.0 8152 9770# 7730# ∗ 1060# 1990 240 160 12 9 0.8 2.1 18 550# 370# 4330# 670 4180 10 2679 −926.3 2343.3 −2020.4 −1894 −5930# −6240# ∗ 950# 1800 180 140 12 0.4 0.8 1.0 18 540# 420# −20130# 1210# −16040# 1810# −13660 460 −6450 120 −6050 140 −743 6 −399.8 0.8 5187.7 1.0 5888 17 11800 500 8700# 360# 13240# 370# 900# 3370# 700# −690# 720 5120 40 1220 16 7966 20 3390 110# 10422.2 350# 4403.5 11186.3 5350 11800# 5070# 1210# 990# 820 120 16 40 0.8 1.9 1.2 120 120# 620# 3670# −200# 2120 −690 1456 −1678 1515.6 −3071.4 −2888 −6590# −5370# ∗ 1140# 1190# 750 160 16 9 0.8 2.0 7 230# 250# ∗ −20350# 990# −14830 1210 −12110 210 −5600 160 −5479 6 483 9 −68.4 0.8 4761.3 2.1 5494 21 11300# 260# 8530# 420# 800# 600# 100 8 14 160# 260# 500# 1130# 1840# 160 8 10 2.0 0.7 0.8 22 530# 400# 550# 770# 3460# −810 1841 −1670 2000.4 −2252.2 410.5 −5580 −3940# −8160# ∗ 1060# 720# 150 8 40 2.0 1.9 1.1 120 170# 570# −19200# 1130# −16970# 920# −11150 410 −9820 110 −4020.7 2.8 −2880 40 2182.5 0.8 1460.4 1.9 8636 14 7500# 200# 12480# 270# 9950# 710# 810# 3450# 3170 4785 4979 7190.6 6846.2 7714.5 8032 7410# 9200# 7830# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Q(α ) Q(2β − ) Q(β − n) Q(ε p) Z S(2n) 43 Si P S Cl Ar K Ca Sc Ti V Cr 14 15 16 17 18 19 20 21 22 23 24 3010# 1970# 5100 990 9090 230 13000 170 15085 5 17177 9 19413.51 0.18 23688.2 1.9 29760# 100# 33960# 310# ∗ ∗ −19300# 870# 38660# 44520# 1260# −18060 1760 29930 40110 1860 −16320 390 20040 33470 270 −13720 190 12430 27570 120 −11270 50 6399 23860 70 −9218 9 −405 19919.1 0.4 −7592 5 −9088 15206.8 1.9 −4805.8 1.9 −18160# 8761 7 −4472 7 −27190# 3960# 230# −6280# 230# ∗ 1010# 240# −6060# 300# ∗ 730# 980 200 160 5 9 7 230# 220# ∗ 17690# −45200# 1330# 15370 −37690# 540# 4880 −32400 470 2180 −21620 120 −5060 −18970 140 −6117 −11275 6 −14358.72 −8455.3 1.9 −19138 1937 7 −29220# 6810# 230# −32090# 15700# 220# ∗ 44 Si P S Cl Ar K Ca Sc Ti V Cr Mn 14 15 16 17 18 19 20 21 22 23 24 25 1730# 4980# 7580 11460 14393 16930 19064.04 21837.5 28570 32090# 35590# ∗ ∗ −19820# 1210# 41960# 46160# 1140# −19620# 990# 32330# 42130# 640# −17010 680 23560 35750 460 −14550 180 15580 29570 120 −12230 140 8795.4 25470 150 −10680 50 2010 21624 6 −8853.5 0.4 −3920.0 17372.5 1.8 −6705.8 1.8 −13700 13579.3 0.7 −5127.1 0.7 −24090# 6570 120 −6020 120 −30520# 2920# 50# −7040# 170# ∗ 10# 540# −6360# 710# ∗ 890# 710# 390 110 1.6 40 0.8 120 50# 520# ∗ ∗ −43100# −33290 −28000 −18930 −16748 −8512 −6428.8 4780 8570# 17140# 45 P S Cl Ar K Ca Sc Ti V Cr Mn Fe 15 16 17 18 19 20 21 22 23 24 25 26 4010# 1260# 7430 1750 10340 200 13903 5 16158 14 18545.95 0.29 21022.5 2.0 25827 7 30000# 230# 32980# 550# ∗ ∗ ∗ −20230# 1130# 36270# 810# 44530# 1880# −19240 2540 26520 1740 38710 980 −15510 250 18250 120 32380 200 −13180 120 11041.4 0.6 27020 160 −11730 70 4460 10 23380 5 −10169.4 0.5 −1806.2 1.0 19052 9 −7933.6 0.8 −9188 17 15175.0 1.0 −6292.9 1.0 −20040 500 10270 17 −5662 17 −26770# 300# 4220 500 −5690# 510# −32550# 550# 1670# 380# −7330# 360# ∗ −1130 40 ∗ ∗ 46 P S Cl Ar K Ca Sc Ti V Cr Mn Fe 15 16 17 18 19 20 21 22 23 24 25 26 2740# 6330# 10620 13190 15750 17809.2 20083.7 22717.6 29100 32160# 34910# ∗ 1140# 800# 730 40 40 2.3 1.9 1.1 120 50# 520# ∗ −20600# 1280# 40210# 1150# ∗ 46720# 1060# −20160# 860# 30420# 700# ∗ 41390# 1000# −18070 850 20710 720 −39900# 1080# 35180 400 −14470 130 13410 40 −33760 1740 29770 110 −12930 140 6339 16 −24340 120 25040.0 2.8 −11137 6 988.3 2.2 −20653.5 2.3 20530 40 −9160.5 0.8 −4684.1 0.9 −12438 10 17232.9 0.8 −8001.3 0.8 −14650 20 −10600.4 0.9 13834.9 2.0 −7376.7 1.0 −24700# 110# −3294.2 0.9 6503 20 −6777 21 −30230# 360# 2243 20 2830# 170# −6630# 230# ∗ 12220# 110# 360# 360# −7660# 460# ∗ 12430# 620# 47 S Cl Ar K Ca Sc Ti V Cr Mn Fe Co 16 17 18 19 20 21 22 23 24 25 26 27 4890# 8300# 12280 15231 17670.8 19407.0 22069.3 26265 31740 33290# 36350# ∗ 1920# 610# 100 13 2.3 2.0 0.8 17 500 340# 340# ∗ −21120# 1060# 33910# 43000# 1000# −18710# 1140# 25180# 37230 1750 −16370 230 16430 31910 120 −13950 160 8636 27147.5 2.3 −12755 6 2592.3 22302 10 −10164 9 −2330.1 18698.4 0.9 −8948.7 0.8 −10374 15512.2 0.6 −8239.0 2.0 −19740# 10131 14 −7662 16 −27940# 4960# 160# −6660# 280# −32970# 2240# 570# −6920# 340# ∗ −1240# 590# ∗ ∗ 950# 830# 410 180 6 40 0.29 1.8 5 230# 300# S(2p) 435 810# 600# 100 8 2.1 1.9 14 160# 260# 530# 830# 980 250 160 5 9 0.21 6 200# 380# 19010# 15990# 6980 3710 −4151 −5470 −13351.9 −16566 −27600# −30060# ∗ ∗ 1260# 730# 420 110 9 40 1.9 7 230# 250# ∗ 18950# −43390# 1920# 8910 −37750# 710# 6240 −27940 390 −2030 −23670 110 −3211 −15427.9 1.6 −11067.2 −12550 40 −11590.7 −4826.2 1.0 −22960 −1353 17 −26490# 11290 500 −33440# 11710# 320# ∗ 19750# 230# ∗ 890# 1750 120 40 10 1.8 1.1 120 50# 710# 800# 970 200 160 5 9 0.7 120 50# 550# 20690# 10990# 6990 −1180 −2678 −10138.6 −10822.7 −20315 −26180 −32430# −34020# ∗ 1960# 710# 720 40 16 2.2 0.5 17 500 300# 250# ∗ 14640# −43310# 1080# 11130# −33900# 710# 1440 −28280 720 −633 −19910 40 −8654.3 −16203 16 −8280.0 −9086.3 2.1 −15930.7 −7533.9 0.6 −20600 2276 14 −30260# 7520# 160# −31090# 15560# 260# ∗ 15780# 520# ∗ 1080# 600# 100 8 2.2 1.9 0.7 20 110# 390# 436 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(p) Q(4β − ) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z S(n) 48 S Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni 16 17 18 19 20 21 22 23 24 25 26 27 28 2870# 1210# 2260# 920# 5880# 310# 4499 25 9945 4 8235 6 11626.65 0.04 10544.7 2.4 16332 16 15130# 190# 19610# 270# 17140# 640# ∗ ∗ 20000# 20490# 13510 15807 9445 11444.6 6832.0 8106 2050 3190# −970# −410# 1060# 670# 100 7 6 1.9 2.4 7 110 170# 480# 710# 57410# 39790# 24770# 12351 −1395 −15170 −30330# −46120# −61220# ∗ ∗ ∗ ∗ 900# −1590# 1280# 700# 5310# 990# 300# 1700# 780# 24 8310 50 8 1915 15 110 9350 6 70# 3980.2 0.7 400# 10358.8 2.4 500# 4965 7 10860 110 4920# 130# 11600# 540# ∗ 160# 1210# ∗ 3410# 1880# −16960# 1060# −490# 320# −14820# 1770# 2511 24 −8110 130 −2742 11 −8797 4 1180 5 −2242 11 −2555.9 0.7 −2029.4 0.9 −605.6 2.6 2238.8 2.5 −6075 19 1833 7 −5490 520 8200 110 −8180# 310# 6450# 510# −7080# 460# 12400# 500# ∗ 10460# 550# 49 S Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni 16 17 18 19 20 21 22 23 24 25 26 27 28 −730# 300# ∗ 3070# 1060# 20190# 2500# 590# 20730# 6270 70 13890# 5146.45 0.18 16454 10128 6 9627.2 8142.39 0.03 11352 11552.9 2.6 6758.2 10583 8 8144 16360 110 2085 14490# 170# 2550# 19290# 480# −1300# 17470# 640# −70# 1210# 860# 310# 24 2.9 5 0.8 3 25 190# 270# 570# 63290# 46850# 30410# 17640 4041 −8937 −23980# −38380# −54330# ∗ ∗ ∗ ∗ 950# 800# 500# 70 5 24 150# 260# 400# ∗ 3010# 1130# 3080# 780# 6300 120 5118 7 6499 4 6484.1 1.9 7686.3 0.8 7382.4 2.4 7654 28 8390# 220# 7760# 370# 9010# 640# 1360# 1310# ∗ 4460# 1060# −19560# 1210# 1430# 880# −13200# 860# 4260 80 −9960 720 −1007 15 −5920 40 1447 4 −5488 15 −1937.6 0.7 222.7 2.1 1030.5 0.9 −553.4 1.1 −3393.4 2.5 4439.3 2.4 −3280 30 5104 24 −7350# 190# 10540# 150# −5470# 440# 8440# 280# ∗ 13890# 540# 50 Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni 17 18 19 20 21 22 23 24 25 26 27 28 1070# 1210# 4430# 860# 3100 290 6353 8 6056 15 10939.19 0.04 9335.9 1.3 13000.3 2.2 13083 24 17970# 160# 15690# 310# 20860# 480# 21990# 22090# 14500# 16540 10537 12163 7951.7 9591.5 4585.3 4150 −100# 1500# 1310# 1060# 580# 70 15 4 1.0 1.3 2.2 60 220# 370# 51840# 36920# 23870 10689 −1910 −16950 −32030# −46470# ∗ ∗ ∗ ∗ 900# 700# 280 9 16 60 170# 260# 4810# 1280# 910# 990# 9080# 410# 3264 25 10388 15 3780 5 9977.0 1.0 4926.7 2.6 10903 7 5560 130 11680# 180# 5280# 480# 4170# 1210# ∗ 880# 920# −16860# 1060# 5420 300 −9190# 660# 989 11 −8020 100 2667 16 −3194 16 −2230.5 1.9 −3440.1 2.1 574.9 1.0 757.0 2.1 −3393.4 1.0 319.3 1.0 −3204 14 5021.6 1.1 −7350# 170# 5730 60 −5710# 310# 10710# 230# −9630# 570# 8480# 370# 51 Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni 17 18 19 20 21 22 23 24 25 26 27 28 1880# 1350# 1370# 990# 4720# 580# 4360 90 6753 25 6372.5 0.5 11051.15 0.08 9260.62 0.20 13685.8 0.4 13820 60 18150# 220# 15720# 370# ∗ 56720# 1000# 22390# 1140# 41930# 700# 14790# 860# 30200# 500# 17800 290 15590 90 10936 22 5023 20 12480 16 −9506 15 8063.7 1.0 −24930# 150# 9516.22 0.25 −40010# 260# 5270.81 0.30 ∗ 4884 15 ∗ 90# 160# ∗ 1530# 310# ∗ 2210# 1380# 2620# 1060# 6850# 710# 5170 120 8782 20 7535 4 7068.2 1.0 7218.9 1.3 7799.9 2.2 8104 28 8020# 210# 8850# 370# 5160# 1350# ∗ 1770# 990# −15350# 1140# 6580# 590# −11650# 860# 1120 100 −6500# 310# 5860 20 −5450 30 −368 5 133 4 1150.4 1.0 −2059 5 −2109.4 2.6 2685.3 1.0 −558 7 1880.4 2.6 −6030 110 8243 17 −4250# 170# 7700# 190# −8210# 480# 12370# 270# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) Q(α ) Q(2β − ) Q(β − n) Q(ε p) A Elt. Z 48 S Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni 16 17 18 19 20 21 22 23 24 25 26 27 28 3640# 1140# ∗ −22070# 1210# 36920# 6140# 1000# 44790# 1140# −19230# 990# 27420# 10140# 300# 38990# 760# −17030# 490# 20500# 12848 28 31990 720 −14320 110 12372 17222 4 29070 40 −13966 4 4274 18882 5 23656 16 −11110 40 −21 20506.94 0.29 19930.6 2.1 −9444.2 0.8 −5669 23545.0 2.5 17296.2 2.5 −9084 3 −15150 29488 21 13274 7 −7696 7 −24660# 33100# 160# 6830 110 −7630 160 −30960# 35060# 360# 3270# 70# −7120# 90# −36560# ∗ 570# 420# −7190# 640# ∗ ∗ −3070# 620# ∗ ∗ 49 S Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni 16 17 18 19 20 21 22 23 24 25 26 27 28 2140# 1240# ∗ 5330# 1000# ∗ 8380# 510# 40730# 10770 70 34380# 15092 4 29960 18363 4 25434 19769.04 0.05 20796.6 22097.5 0.9 18202.8 26915 14 14976.0 31500# 160# 10191 34100# 300# 4600# 36420# 570# 1890# ∗ −1040# 50 Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni 17 18 19 20 21 22 23 24 25 26 27 28 4140# 1140# 6930# 760# 9370 280 11499 8 16183 16 19081.58 0.05 20888.8 2.6 23583 7 29450 110 32460# 90# 34980# 430# 38330# 570# ∗ −20630# 1280# 32660# 42280# 1140# −17630# 990# 25070# 35230# 750# −13070 770 19180 30430# 300# −12280 40 11856 26991 28 −11543 21 4685 21790 4 −10716.5 2.1 −1167.2 19303 5 −9889.4 1.1 −6594.7 16349.7 1.0 −8561.0 1.0 −15780 12729.4 2.6 −7978.7 1.2 −25430# 6230 60 −7430 60 −30680# 2450# 200# −7250# 200# ∗ 210# 270# −6970# 440# ∗ 51 Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni 17 18 19 20 21 22 23 24 25 26 27 28 2940# 5790# 7830# 10720 12808 17311.7 20387.1 22261.0 26768 31780# 33840# 36580# ∗ ∗ 35500# 1120# ∗ 19930# 1220# 44380# 1180# −18220# 1060# 28070# 710# ∗ 9480# 750# 36880# 950# −13910# 780# 21220# 500# −36590# 1030# 9500# 500# 32300# 510# −12380 140 13860 90 −28650# 710# 600 90 27480 70 −9947 21 8983 20 −25160 280 137 20 23017 4 −9812.6 2.2 1721.0 1.1 −17446 9 −8577.6 1.1 20227 4 −10294.2 2.1 −3960.0 0.4 −14953 16 −10013.2 0.3 17467.9 1.0 −8941.3 1.0 −11226 15 −7311.1 1.0 −16893.3 0.3 14862.3 1.3 −8664.2 1.0 −20970# 150# −6308.8 0.4 −21840 60 9470 15 −8089 21 −28780# 260# 2748 15 −31100# 170# 4240# 150# −7440# 220# ∗ 8060# 150# −31550# 300# 1440# 300# −7240# 370# ∗ 15750# 270# ∗ 1280# 860# 510# 90 20 0.5 1.3 2.2 24 150# 300# 480# S(2p) 437 950# 600# 100 7 2.1 2.0 2.4 24 150# 310# 480# 950# 700# 300# 24 4 6 7 110 70# 420# 510# ∗ ∗ −39010# −28900# −25600 −16089 −13436.6 −7432 −5176 5390 9110# 16610# 17730# 860# 600# 100 9 2.1 3 7 110 70# 430# 570# 15650# 1080# 13130# 710# 3910# 300# 2145 24 −7953 4 −7635 5 −14557.0 0.3 −17988 14 −28630# 160# −30770# 280# −36940# 510# ∗ ∗ ∗ 40150# 1080# ∗ 18630# 1180# −20030# 1130# 30620# 800# ∗ 15940# 860# −17320# 1810# 23140# 500# −38630# 1030# 5910# 500# −14380 140 16230 70 −32900# 700# 5820 70 −13944 4 7270 4 −24860# 300# −4864 5 −12369 11 1405 4 −21717 24 −6136 4 −10171.8 0.9 −3228.3 2.4 −11634 4 −12154.7 2.4 −9314.1 1.1 −10341 24 −10750 5 −13209 7 −8749.7 2.5 −20750# 150# −4131.7 2.4 −24080 110 −8161 29 −28040# 260# −429 24 −27530# 70# −8040# 530# −33580# 430# 10950# 150# −34290# 430# −6890# 400# ∗ 12460# 280# −36040# 570# −7010# 460# ∗ 19870# 410# ∗ 950# 700# 280 9 16 1.0 0.4 60 170# 270# ∗ 17380# 1030# −43790# 1180# 7750# 700# −32940# 850# 7870 280 −28710# 500# −1090 9 −21510 70 −4049 16 −17426 4 −11541.0 0.8 −9958 4 −11962.4 2.2 −8989.7 1.0 −20715 24 −1958.8 1.3 −26120# 150# 3570 60 −32970# 270# 13130# 170# −34270# 430# 13500# 300# ∗ 438 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) S(p) Q(4β − ) A Elt. Z 52 Ar K Ca Sc Ti V Cr Mn Fe Co Ni Cu 18 19 20 21 22 23 24 25 26 27 28 29 3270# 1140# 23790# 2270# 860# 15690# 4720 700 17800# 5210 190 11780 7808 7 13536 7311.24 0.13 9002.4 12039.4 1.0 10504.5 10535.4 2.0 6545.6 16181 16 7379 14710# 160# 980# 19290# 270# 2670# ∗ −1520# 1350# 990# 860# 210 22 1.1 1.0 2.1 7 70# 170# 370# 46470# 35240# 22910 10350 −1133 −17530# −32760# −48080# ∗ ∗ ∗ ∗ 53 Ar K Ca Sc Ti V Cr Mn Fe Co Ni Cu 18 19 20 21 22 23 24 25 26 27 28 29 470# 1350# ∗ 3870# 990# 16290# 3460# 860# 18990# 5340# 360# 12400# 5440 100 13760 8479 3 9673 7939.12 0.14 11132.4 12053.8 1.9 6559.9 10685 7 7528.9 16800# 70# 1602 14790# 180# 2740# 18910# 370# −1910# 1140# 860# 760# 220 8 1.0 0.3 2.5 19 170# 270# 51430# 1000# 39850# 700# 27390# 500# 17070# 300# 4120 100 −9204 18 −25920# 160# −41230# 260# ∗ ∗ ∗ ∗ 54 K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn 19 20 21 22 23 24 25 26 27 28 29 30 1480# 1140# 4070# 860# 4670# 480# 6840 160 6113 15 9719.12 0.12 8938.8 1.1 13378.4 1.6 13436 18 17910# 170# 16310# 340# ∗ 17290# 19180# 13610# 15260# 10350 12373 7559.6 8853.5 4353.2 3850 −390# 400# 1350# 990# 630# 320# 100 3 1.0 0.5 1.6 50 270# 480# 44490# 33040# 21340 10660 −1881 −17720 −33860# −49690# ∗ ∗ ∗ ∗ 55 K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn 19 20 21 22 23 24 25 26 27 28 29 30 2940# 1350# 2300# 990# 3430 820 4150 200 7330 100 6246.26 0.19 10226.5 1.1 9298.23 0.20 14089.3 0.4 14200 50 18000# 370# 16430# 470# ∗ 20000# 12980# 14740 10850 12506 8067.0 9213.0 5064.1 4615 −300# 520# 1140# 1020# 400 160 15 0.4 1.1 0.3 11 300# 330# 48880# 1000# 36990# 700# 28130 740 15810 150 4880 100 −9772 11 −26090# 300# −42560# 250# ∗ ∗ ∗ ∗ 56 Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga 20 21 22 23 24 25 26 27 28 29 30 31 3400# 1140# 20460# 1350# 41840# 3760# 1020# 14440# 990# 31640# 5340 250 16650 760 21670 5000 230 11700 250 9960 8245.1 2.0 13420 100 −1378 7270.45 0.13 9091.2 0.4 −18310# 11197.30 0.25 10183.74 0.17 −34880# 10083.1 2.0 5849.0 2.0 −51300# 16639 16 7165 11 ∗ 15050# 330# 560# 140# ∗ 18880# 360# 1390# 400# ∗ ∗ −2890# 360# ∗ Q(d,α ) 900# 410# 1280# 700# 9020# 990# 700 3550 750 190 9930 190 10 5783 17 70# 10696.2 1.0 80# 4515.4 1.0 260# 10264.9 2.0 5006 7 11270# 90# 5250# 190# 11880# 370# Q(p,α ) Q(n,α ) 1570# 1210# −19350# 1310# 6810# 860# −10850# 1060# 2670 700 −8720# 860# 5800 190 −4390 210 1952 8 −2529 8 1981.5 1.0 757 4 −2595.9 1.3 −1211.7 1.0 −511 3 2897.9 2.2 −5852 25 2645 7 −4470# 160# 9350# 70# −8210# 270# 7580# 170# −6760# 480# 12600# 370# 1820# 1410# 6510# 990# 4810# 710# 8950# 310# 7100 100 8590 3 7627.4 1.0 7471.7 1.0 8006.8 1.9 8288 23 8620# 220# 8690# 370# 2160# 1350# ∗ 7370# 990# −13650# 1140# 2320# 580# −7750# 860# 6810# 300# −6630# 410# 2570 100 −1610 100 4442 3 −1666 16 −1199.1 1.0 1788.3 1.0 435.7 1.0 180.1 1.0 −3454.5 1.9 4960.6 1.9 −3310 60 5628 18 −7310# 230# 10750# 170# −4810# 370# 9380# 310# 900# 8310# 1280# 700# 3020# 990# 370 9000 790 120 5470 230 15 10285 17 50 5219.6 1.0 210# 10572.4 1.0 400# 5163.8 1.8 11033 7 5420# 80# 11670# 230# 6770# 480# 7260# 1140# −13250# 1350# 2970# 860# −10450# 990# 6510 380 −6570# 630# 2490 130 −4080 160 4701 15 −1026 25 132.9 1.0 −1558.3 1.1 757.5 1.4 2292.4 1.4 −3147.1 0.9 842.8 0.9 −2923 15 5878.2 0.9 −7070# 160# 6660 50 −5390# 340# 11230# 260# ∗ 10520# 480# 5840# 1410# 4590# 990# 9030# 890# 6660# 340# 8390 140 7452 3 8285.0 0.4 7919.3 0.5 7628.6 1.7 8020 21 8460# 340# 9250# 360# 900# 2670# 1280# 700# 9330# 990# 200 5990 420 200 10230 240 11 5321 15 140# 10733.6 0.4 260# 5660.8 1.1 260# 10923.9 2.0 4817 11 11320# 150# 6680# 340# 12540# 480# 7590# 1350# 2950# 990# 7790 1010 3550 250 5180 100 1197.9 1.0 2570.4 0.4 −1909.9 1.8 −832 7 −6560# 70# −4110# 310# −7430# 360# ∗ −9470# 1140# −7740# 1020# −3510 710 −3150 220 4 7 −622.9 0.9 3584.0 0.4 2324.3 1.9 8642 13 7940# 310# 13380# 270# 3420# 1140# −12400# 1350# 7490# 860# −7630# 990# 3550# 360# −5390# 540# 5610 230 −2810# 360# 1432 4 −2810 100 3239.1 0.4 586 3 −1053.4 0.5 325.8 0.4 −230.0 2.6 4295.0 2.1 −6395 21 2688 11 −4370# 210# 9690# 140# −7400# 370# 9290# 310# ∗ 14370# 370# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(α ) Q(2β − ) Q(ε p) Q(β − n) A Elt. Z S(2n) 52 Ar K Ca Sc Ti V Cr Mn Fe Co Ni Cu 18 19 20 21 22 23 24 25 26 27 28 29 4640# 1140# 6990# 750# 9080 700 11960 190 14181 7 18362.39 0.15 21300.1 1.0 24221.3 2.1 30000 60 32860# 180# 35010# 270# ∗ ∗ −18620# 1280# 29510# 1140# ∗ 10930# 1030# 38080# 1140# −13920# 990# 24160# 730# −36990# 1220# 11590# 710# 32580# 990# −11220# 760# 16960 700 −32000# 990# 2640 700 29580 340 −10660 190 11080 190 −25640# 540# 1300 190 24472 12 −7676 8 5952 7 −20890 90 −5335 7 21482 16 −9370 5 −735.9 2.1 −15512 20 −8063.82 0.27 18568.2 1.0 −9354.1 1.0 −7085 7 −12978.1 1.1 −15246.9 1.0 16061.8 2.1 −8655 3 −16790# 70# −5793.0 2.1 −18554 15 12650 7 −7937 10 −25680# 80# −4172 7 −29130# 150# 5870# 70# −7020# 130# −31290# 270# 7040# 70# −30550# 270# 2760# 100# −6920# 110# ∗ 10280# 90# ∗ 10# 310# −6690# 480# ∗ 17360# 300# ∗ 53 Ar K Ca Sc Ti V Cr Mn Fe Co Ni Cu 18 19 20 21 22 23 24 25 26 27 28 29 3740# 6140# 8180# 10550# 13240 15790 19978.6 22589.2 26866 31510# 34070# ∗ ∗ −19820# 1380# 32500# 1120# ∗ 12730# 40070# 1220# −14720# 1060# 25630# 760# ∗ 12440# 34680# 860# −12180# 710# 18930# 510# −32190# 1030# 4390# 30200# 590# −9730# 310# 14230# 300# −28710# 760# 3770# 25540 140 −7960 100 8460 100 −21610 710 −3460 23209 21 −7721 5 2839 3 −18780 190 −4503 20134.8 1.1 −9150.9 1.0 −4339.4 1.7 −13109 7 −12650.6 17064.5 1.0 −9155.9 1.3 −12043 18 −10535.6 1.0 −14428 14074.5 1.9 −8039.8 2.9 −21580# 160# −2817.4 1.7 −25100# 8981 18 −7450 30 −29190# 260# 772 18 −28060# 3730# 160# −7210# 220# ∗ 11670# 160# −34820# 760# 300# −6310# 370# ∗ 13170# 270# ∗ 1220# 990# 540# 300# 100 3 1.9 7 70# 90# 310# 54 K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn 19 20 21 22 23 24 25 26 27 28 29 30 5350# 1140# 7530# 990# 10000 420 12270 120 14592 15 17658.25 0.19 20992.6 2.1 24063 7 30240# 70# 32700# 100# 35210# 340# ∗ ∗ −15130# 1280# 28820# 35470# 1140# −11810# 990# 21700# 32600# 790# −11290 460 15670 27660 710 −8450 130 11340 24110 190 −7779 22 5664 22046 7 −7930.8 1.0 −680.1 18692.0 1.4 −8758.7 1.4 −7545.8 15413.5 0.5 −8417.9 0.9 −17040 11882.0 1.8 −7807.6 0.9 −26320# 5460 50 −7160 80 −32640# 2360# 220# −6920# 270# ∗ −1510# 410# −5200# 480# ∗ 1030# 760# 380 120 15 0.4 2.0 18 160# 270# 55 K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn 19 20 21 22 23 24 25 26 27 28 29 30 4420# 1220# 6360# 860# 8100# 790# 10980 180 13450 100 15965.38 0.22 19165.3 0.5 22676.7 1.6 27525 18 32110# 160# 34310# 400# ∗ ∗ −16190# 1410# 29310# 1240# ∗ 15550# 1220# 37300# 1220# −12750# 990# 23550# 720# ∗ 8030# 790# 32160# 1020# −10000# 890# 19570 740 −31470# 1170# 7940 750 28350# 530# −8230 180 13440 150 −25070# 720# 150 150 26110# 310# −8360 100 8560 100 −22220 380 −290 100 22860 100 −7804.6 1.1 2371.9 0.4 −16800 120 −7623.4 1.0 20440 3 −7934.1 0.9 −3683.0 0.4 −15109 15 −9529.44 0.26 16772.6 0.4 −8455.5 0.9 −12144 11 −7835.8 0.4 −17541.14 0.28 13917.6 0.6 −8211.1 0.9 −22400# 300# −5761.2 1.1 −22890 50 8968 11 −7538 19 −30410# 250# 3628 11 −31710# 220# 3560# 300# −6780# 330# ∗ 9100# 300# −33130# 500# 130# 300# −5910# 360# ∗ 17000# 260# ∗ 56 Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga 20 21 22 23 24 25 26 27 28 29 30 31 5690# 7200# 9490 12330 14491.3 17497.0 20495.5 24172.4 30840 33050# 35300# ∗ ∗ −12870# 1280# 25500# 34450# 1140# −11500# 990# 20810# 29620# 730# −8850 730 16340 26440 420 −8150 280 10830 24260 120 −8241 7 5324.1 21597 15 −7893.3 1.0 −870.4 18250.7 0.4 −7613.3 0.4 −6702 15061.9 2.3 −7758.8 2.7 −17440# 12229 11 −7997 13 −28180# 5170# 140# −7110# 150# −33860# 1100# 270# −5500# 270# ∗ −2380# 340# −4540# 370# ∗ 1220# 860# 510# 300# 100 3 1.0 1.0 15 150# 310# 1140# 790# 230 200 2.0 1.1 0.3 2.0 50 260# 480# S(2p) 439 980# 710# 370 120 15 0.4 1.1 50 210# 400# 930# 730# 200 200 2.0 2.0 11 140# 260# 300# ∗ 14420# −35780# 1220# 5660# −29510# 790# 4540 −24990# 520# −1820 −19560# 300# −2678 −17390 100 −10316.0 −10996 3 −12681.4 −8256.7 0.5 −21679 −610.6 0.6 −26710# 4450 50 −33820# 13660# 220# ∗ 15510# 430# ∗ ∗ 8070# 1170# −32290# 1220# 8330# 720# −28110# 730# 2140 220 −23790 760 960 200 −20900 150 −5642.0 2.0 −15050 100 −7501.66 0.23 −12786.8 0.4 −14649.1 0.4 −5617.7 2.0 −18775 11 −3713 11 −30350# 300# 8140# 140# −31750# 290# 12320# 260# ∗ 19590# 400# ∗ 440 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(p) Q(4β − ) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z S(n) 57 Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga 20 21 22 23 24 25 26 27 28 29 30 31 1750# 1350# 3490# 990# 2680 500 6180 310 5314.2 2.6 8648.4 1.9 7646.10 0.03 11376.2 2.1 10250 11 16780# 140# 15140# 280# 19230# 370# ∗ 45400# 1000# 14540# 1140# 36800# 700# 15560# 830# 26640 460 12540 300 15160 230 13730 200 3557.8 2.6 9494.5 2.6 −10177 16 10559.39 0.21 −27380# 100# 6027.8 0.5 −43440# 260# 7331.6 2.7 ∗ 695 19 ∗ 1490# 170# ∗ −2540# 370# ∗ 58 Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge 21 22 23 24 25 26 27 28 29 30 31 32 2560# 1060# 5300# 830# 4090 340 7380 200 6490 30 10044.60 0.18 8573.0 1.2 12217.0 1.8 12424 16 17570# 110# 16160# 340# ∗ 15340# 17370# 13950 14930 10670 11955.6 6954.7 8172.5 2869.1 2280 −1530# −240# 1280# 990# 520 310 30 1.9 1.2 0.5 2.3 50 240# 410# 40730# 31390# 19640 8390 −4240 −19860 −35860# −51850# ∗ ∗ ∗ ∗ 800# 8980# 1210# 700# 5220# 990# 250 9440 320 200 4960 290 30 10090 30 50 5467.10 0.28 210# 11470.3 1.2 320# 6522.5 2.1 12952 11 7010# 150# 12450# 340# 7080# 410# 7810# 1060# 3680# 1020# 6330 290 2180 230 4060 30 421.22 0.25 2497.6 1.2 −1336.1 0.6 −1462 11 −5810# 300# −4200# 330# ∗ −9260# 1280# −7000# 990# −4980 780 −4520 250 −1110 100 −1399.5 0.5 3511.1 1.2 2898.1 0.6 8011.9 1.6 8680 50 13290# 370# 12200# 400# 59 Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge 21 22 23 24 25 26 27 28 29 30 31 32 2940# 1210# 2520# 990# 4930 390 4130 320 7640 40 6581.01 0.11 10453.9 1.1 8999.27 0.05 12766.5 1.5 13030 60 18210# 270# 16700# 420# ∗ 17330# 13590# 14970 10930 12050 7364.0 8598.8 3418.5 2890 −890# 300# 1060# 760# 350 210 30 0.6 1.1 0.5 40 180# 350# 45440# 35450# 25160 13260 880 −13400 −28110# −44160# ∗ ∗ ∗ ∗ 900# 700# 310 240 30 40 170# 280# 60 Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As 21 22 23 24 25 26 27 28 29 30 31 32 33 2030# 1280# 4500# 1060# 3580 570 6680 320 5770 90 8820 3 7491.92 0.07 11387.75 0.05 10058.2 1.7 15000 40 13950# 200# 18840# 360# ∗ ∗ 49180# 18900# 1210# 39760# 14650# 850# 29070 16730 370 17970 12580 260 5170 13220 30 −7224 8274.9 0.6 −21650# 9532.64 0.19 −36700# 4477.4 1.6 −51950# 5120 11 ∗ 30# 120# ∗ 940# 290# ∗ −3310# 660# ∗ 3860# 1410# 8140# 990# 6750 870 8190 280 7340 100 8331.5 1.9 8241.26 0.17 8846.0 0.6 8656.4 1.9 8737 19 9540# 320# 9730# 360# 3150# 8070# 5540 6270 2231 4309.8 239.3 1772.3 −3208.4 −3230 −6240# −4470# 1350# 990# 590 260 15 1.9 1.1 0.6 1.9 50 240# 480# ∗ −9640# 1140# −4010# 830# −4320 440 −1280 120 −1949 15 2398.8 0.4 1857.6 1.2 5816.9 1.9 6346 16 12060# 110# 11440# 340# 7790# 6180# 7190 7010 7760 7534.5 8662.5 8899.4 10435.6 10760 9390# 9610# 1350# 990# 550 340 30 1.9 0.5 0.5 1.9 40 200# 380# 8260# 4920# 6730 3050 4670 1110.6 3241.0 −252.2 2411 −3800# −3530# −7390# 1280# 990# 360 320 30 0.3 0.5 2.1 11 150# 310# 380# ∗ −6130# 1140# −6150# 760# −3310 310 −3750 210 264.5 2.0 327.7 0.6 5096.1 0.5 5328.5 2.1 12290 40 10130# 220# 14380# 380# 910# ∗ 800# 4240# 470 8900# 210 4420 90 9370 11 5210 110# 11215.2 230# 6084.6 600# 12594.4 8185 13010# 6930# 12690# 1130# 850# 330 220 30 0.6 1.1 1.6 11 120# 320# 680# 7990# 3910# 5830 2550 4210 939 3395.2 −263.8 2601.9 −2014 −2340# −7000# ∗ 1350# 1060# 660 320 90 4 0.6 0.5 2.4 19 150# 350# ∗ −8880# 1280# −6240# 850# −7310 500 −3340 250 −3241 4 1484.2 1.9 1354.5 0.5 6646.5 1.6 7541 11 12960# 110# 10680# 250# 15150# 650# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(α ) S(2p) Q(2β − ) 441 Q(β − n) Q(ε p) A Elt. Z S(2n) 57 Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga 20 21 22 23 24 25 26 27 28 29 30 31 5150# 1220# 7250# 1020# 8020 480 11180 250 13559.3 2.0 15918.9 1.9 18843.40 0.25 21459.3 0.6 26889 11 31830# 300# 34020# 270# ∗ ∗ −14150# 1410# 26420# 1100# ∗ 10080# 35000# 1220# −11120# 990# 23500# 740# ∗ 10180# 30000# 830# −8070# 680# 18980 460 −27390# 1010# 4460 29190 770 −8990# 380# 13300 230 −26210# 740# 3020 25430 150 −8120 100 7656.0 2.0 −20880 200 −3685.7 22910 100 −8063 4 1857.4 1.9 −18700 200 −4952.8 19650.6 0.4 −7320.3 0.4 −4098.2 1.9 −12187.9 2.0 −12212.1 16211.6 0.6 −7081.2 0.7 −12035 16 −9723.5 0.6 −13512 13180.5 1.9 −7561.6 2.5 −23280# 100# −2765.6 1.9 −25550# 7860 16 −7090 24 −31410# 260# 1441 16 −29650# 2040# 100# −5860# 190# ∗ 13820# 100# −36130# −1150# 400# −4870# 370# ∗ 15410# 300# ∗ 58 Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge 21 22 23 24 25 26 27 28 29 30 31 32 6050# 1060# 7970# 730# 10270 320 12700 200 15140 30 17690.70 0.19 19949.2 2.3 22467 11 29200# 140# 32710# 270# 35390# 340# ∗ ∗ −12200# 1210# 25040# 31900# 1140# −9300# 990# 21070# 29520# 740# −8410 450 15700 27480 280 −8670 240 10320 24400 210 −8440 30 3940 21450.1 2.0 −7645.8 0.4 −1925.7 17514.1 1.2 −6715.4 1.6 −8183.8 14200.3 0.5 −6400.2 0.6 −17930 10200.6 2.5 −6077.4 1.6 −27680# 2970 50 −5510 70 −33920# −40# 260# −4720# 300# ∗ −2780# 410# −4230# 510# ∗ 840# 730# 250 200 30 0.6 1.8 50 210# 320# ∗ 10300# −30940# 1220# 5350# −26810# 740# 4240 −25580 500 −2420 −19010 230 −3800 −16918.2 2.0 −10880.5 −9648.0 2.2 −11835.2 −7336.5 0.5 −20989 393.2 1.5 −26930# 6500 50 −34470# 16040# 220# ∗ 17140# 330# ∗ 59 Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge 21 22 23 24 25 26 27 28 29 30 31 32 5500# 1140# 7810# 830# 9020 390 11510 240 14140 30 16625.62 0.21 19026.8 0.5 21216.3 1.8 25190 16 30600# 110# 34360# 310# ∗ ∗ −12200# 1350# 27030# 32670# 1220# −9520# 990# 22680# 30960# 760# −9910 800 18410 28930 520 −8650 290 12770 25870 230 −8750 100 6750 22716.9 2.0 −7980.5 0.5 492.5 19319.6 1.9 −6942.7 0.6 −5871.2 15553.5 0.5 −6101.2 0.6 −13900 11591.0 0.7 −4754.6 0.8 −22240# 5760 40 −4350 40 −30260# 1390# 170# −4920# 340# ∗ −1220# 300# −4500# 380# ∗ 950# 740# 310 240 30 0.6 0.5 40 170# 280# ∗ ∗ −29180# −24410# −22560 −16120 −13610 −6291.2 −3800.3 5680 10250# 18010# 60 Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As 21 22 23 24 25 26 27 28 29 30 31 32 33 4970# 1210# 7020# 1060# 8510 540 10810 290 13410 90 15401 3 17945.8 1.1 20387.02 0.07 22824.7 2.1 28030 50 32160# 240# 35540# 390# ∗ ∗ ∗ 31980# 30320# 27550 24160 20320 16896.6 13076.2 8538 2910# 50# −3010# 930# 730# 260 200 30 0.6 1.9 11 110# 240# 630# 860# 740# 250 200 30 0.6 1.2 40 170# 280# 1220# 730# 500 230 2.0 1.9 2.0 11 140# 260# 280# 920# 740# 250 200 30 0.6 2.1 16 100# 270# 12650# 1140# 6920# 740# 6700 370 −60 250 −1400 30 −8888.6 1.2 −10072.03 0.19 −17564.9 1.4 −22130 50 −31350# 220# −33820# 360# ∗ ∗ 28580# 1020# ∗ 13150# 1140# −10630# 1210# 24860# 830# ∗ 7350# 860# −9730# 850# 20600 480 −29830# 1020# 7240 530 −9990 290 14910 210 −28580# 730# 900 220 −9520 220 8470 90 −23400 320 −590 90 −8556 4 3060 3 −20810 240 −7255 3 −7164.2 0.6 −3304.9 1.6 −13460 30 −8564.68 0.20 −6291.6 0.5 −10284 11 −11097.9 0.6 −16186.2 0.5 −4729.7 2.6 −18350# 110# −3404.7 1.6 −19150 40 −2709 15 −26420# 230# −321 11 −28140# 170# −3820# 180# −33600# 610# 9070# 110# −31070# 300# −4470# 350# ∗ 12200# 240# ∗ −4080# 650# ∗ 20430# 620# ∗ 442 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z S(n) 61 Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As 22 23 24 25 26 27 28 29 30 31 32 33 2070# 1210# 4860# 620# 3750 330 6450 240 5581 20 9320.7 0.8 7820.13 0.05 11710.9 1.9 10229 19 15160# 120# 14030# 380# 19720# 840# 18940# 1280# 43270# 15000# 900# 33540# 16890 540 22040 12340 310 10430 13030 90 −2576 8776 4 −15810 9860.85 0.21 −30490# 4800.5 1.0 −43930# 5290 16 ∗ 190 50 ∗ 1020# 320# ∗ −2430# 640# ∗ 900# 400# 250 230 26 50 300# 600# 62 Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As 22 23 24 25 26 27 28 29 30 31 32 33 4080# 1280# 3130# 640# 6310 420 4550 320 8051 25 6604 20 10596.52 0.29 8886 4 12897 19 12980 60 16590# 330# 14980# 670# ∗ 16060# 18340# 13150 14630 9799 11136.6 5866 6477 2940 2440# −1480# 900# 3050# 500# 7940# 340 2870 220 9180 18 4990 30 10691 140# 5613.7 300# 12385 7883 12898 8470# 13520# 63 Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As 22 23 24 25 26 27 28 29 30 31 32 33 1620# 1350# 4560# 780# 3180# 450# 6380 340 4720 170 8480 28 6837.78 0.06 10853 4 9113 10 12618 28 12740# 240# 16930# 590# ∗ 50350# 1010# ∗ 3660# 1350# ∗ 16550# 1080# 40930# 600# 5450# 1080# 5600# 1000# −11270# 1080# 18390# 590# 29990# 300# 4540# 500# 1910# 560# −8230# 860# 13230 420 19230 260 6540 360 5020 340 −8130 540 14800 280 6670 170 6720 280 2500 190 −3400 270 10229 25 −5293 20 7792 28 4435 20 −3020 90 11370 20 −18600# 200# 8096.7 0.7 1000.5 0.3 1546 3 6122.41 0.06 −31760# 500# 9352.17 0.30 3756.60 0.30 1715.9 0.3 6704 4 ∗ 10481.4 1.6 995.1 2.2 7905.5 1.6 2665 10 ∗ 10509 16 2505 11 7443.4 2.1 2200# 200# ∗ 10890# 200# −2050# 230# 12920# 200# −1130# 520# ∗ 10620# 590# −1190# 550# 11820# 520# 64 V Cr Mn Fe Co Ni Cu Zn Ga Ge As 23 24 25 26 27 28 29 30 31 32 33 2560# 5700# 4340 7300 6024 9658.04 7916.03 11861.9 10358.6 15510# 13770# 17490# 1220# 44400# 19530# 720# 33950# 14380# 400# 22810 15710 380 11230 11540 170 −958 12548 20 −12750 7200.66 0.09 −25900# 7713.0 0.7 ∗ 3910.3 2.5 ∗ 5090 30 ∗ −100# 300# ∗ 700# 6970# 1140# 5120# 400# 1980# 640# 1070# 270 8510 430 4430 280 3980 360 1650 20 9819 25 3993 30 5043 20 663.2 360# 12032.66 0.11 3660.7 7505 4 844.1 13048 10 2375 8360 40 −2400 13430# 380# −930# 1140# 570# 370 360 28 0.7 0.3 0.7 16 60 470# ∗ −11860# −7610# −6940 −2590 −2531 3120.6 3863.7 8795.7 7640 13220# 65 V Cr Mn Fe Co Ni Cu Zn Ga Ge As Se 23 3930# 1060# 24 2720# 640# 25 6130 600 26 4180 370 27 7449 24 28 6098.09 0.14 29 9910.7 0.7 30 7979.32 0.17 31 11894.2 2.1 32 10140 100 33 15530# 470# 34 ∗ ∗ 19690# 14810# 15550 11690 12622 7453.4 7776.3 3942.5 4870 −80# 690# 800# 4660# 500# 3830# 540 5570# 240 6180 13 7090 100 7425 300# 8959.7 600# 10378.7 10266.7 10840 10640# 11610# 1210# 710# 630 330 20 20 0.7 4 10 100 330# 670# ∗ −10500# 1030# −10600# 740# −4820 420 −5480 220 −579 14 −186 20 6480.9 0.7 5787 4 10400 100 10670# 300# 14970# 610# 920# 500# 370 320 28 0.19 0.09 1.5 2.4 200# 620# 1030# 520# 340 230 28 0.7 4 10 30 150# 420# 860# 670# 360 280 20 0.7 0.7 0.6 100 300# 700# 47250# 37010# 26330 14760 2271 −9430 −24500# −37830# ∗ ∗ ∗ ∗ 47920# 37330# 26590 15030 3487 −8710 −20280# −32990# ∗ ∗ ∗ ∗ 5100# 1280# 4390# 6570# 810# 6270# 5600 400 2890 7050 330 5140 7270 40 1850 8475.5 1.0 4119.1 8718.33 0.20 489.0 9882.8 1.0 3108.1 10723 16 181 10880 60 70 11100# 340# −4880# 9660# 660# −4810# 1280# 950# 580 310 90 20 0.3 4 10 30 180# 380# 1280# 780# 610# 350 170 20 0.7 0.7 1.6 100 360# 780# 3250# 5660# 1520 4720 1440 4096 346.4 3222 50 120 −3260# −3100# 5270# 1490# 4610 2020 4595 1170 4346.5 1750 3378 450 130# −3090# 1210# 810# 360 310 40 0.9 1.1 1.0 16 70 370# 680# ∗ −8540# −5770# −5700 −1440 −1350 3578.9 3508.6 9529 10220 14220# 11580# 1280# 860# 460 330 30 20 0.3 4 10 50 220# 410# ∗ −8740# 1030# −9550# 780# −5330 380 −5360 240 −310 40 −436.6 0.6 5077 4 5631 10 10003 28 10660# 150# 14800# 340# 900# 740# 340 200 30 0.6 1.5 16 50 300# 630# 990# 480# 380 230 20 0.7 0.7 2.2 40 360# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(α ) Q(2β − ) Q(β − n) Q(ε p) A Elt. Z S(2n) 61 Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As 22 23 24 25 26 27 28 29 30 31 32 33 6580# 1140# 8440# 510# 10430 350 12220 230 14401 20 16812.6 0.8 19207.88 0.07 21769.1 1.1 25230 40 29110# 180# 32870# 410# ∗ ∗ 33900# 31540# 29070 25610 22000 18135.7 14333.2 9768 5310 1050# −1490# 62 Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As 22 23 24 25 26 27 28 29 30 31 32 33 6150# 1210# 7990# 690# 10050 400 11000 240 13632 15 15925 20 18416.65 0.29 20596 4 23126 15 28150# 120# 30620# 270# 34710# 670# ∗ ∗ 35010# 1030# −11680# 33350# 870# −12070# 30040 520 −10250 26970 210 −9490 22830 90 −7950 19912 3 −7017.6 15727 4 −5377 11277 10 −3369 8234 28 −2763 2630# 140# −2370# −460# 320# −3400# 63 Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As 22 23 24 25 26 27 28 29 30 31 32 33 5690# 1350# 7690# 720# 9490# 390# 10940 340 12770 170 15085 20 17434.30 0.30 19738.5 1.0 22010 16 25600 50 29320# 360# 31910# 780# ∗ ∗ 34460# 31570# 27940 24860 21169 17259.0 12570.1 9141.4 5140# 1310# 950# 480# 310 230 20 0.7 1.6 1.6 200# 510# 64 V Cr Mn Fe Co Ni Cu Zn Ga Ge As 23 24 25 26 27 28 29 30 31 32 33 7120# 8880# 10720 12010 14504 16495.82 18769 20975 22977 28250# 30700# ∗ 36080# 32770# 28930 26330 22776 18571 13835.4 10614 7760 2100# −13830# 1140# 27220# 990# −13930# 900# 21620# 570# −12460 540 17180 440 −10690 350 12330 220 −9040 90 5632 14 −8112 3 −1095.7 20 −6200.1 0.4 −6589.9 0.7 −3956.4 0.7 −11650 5 −2915.1 2.6 −19310# 30 −2590 30 ∗ 360# −1950# 380# ∗ 750# 490# 270 280 20 0.7 2.1 30 360# ∗ 12060# −35240# 1070# 5130# −28990# 650# 4860 −26530# 410# −1000 −20730 260 −2351 −18840 170 −9591.06 −10873 20 −11282.5 −7780.0 0.7 −17527.8 −543.8 2.1 −20000# 570 30 −28600# 9740# 360# ∗ 760# 480# 320 280 20 0.19 1.6 1.5 200# 500# 65 V Cr Mn Fe Co Ni Cu Zn Ga Ge As Se 23 24 25 26 27 28 29 30 31 32 33 34 6480# 1000# 8410# 590# 10460 600 11470 300 13472 24 15756.13 0.24 17826.8 0.7 19841.2 1.5 22252.7 1.5 25650# 220# 29300# 590# ∗ ∗ ∗ 29420# 37180# 1120# −14570# 1030# 23080# 34340# 800# −13740# 670# 18500 29930# 390# −11120 350 14250 27400 260 −10040 230 8094 24160 170 −8630 20 785.5 20001 20 −6790.2 1.0 −4606.5 14977.0 0.7 −4115.6 0.7 −9500 11655.6 0.9 −3098.4 1.0 −15680# 8780 100 −2490 100 −23500# 5010# 300# −2320# 310# ∗ 590# 630# −1620# 670# ∗ 960# 560# 540 240 13 0.7 0.7 100 300# 600# ∗ ∗ −32560# −25020# −23840 −17640 −14760 −6101.3 −4521.9 2300 4560# 14140# 900# 570# 600 240 13 0.24 0.4 2.1 30 370# 860# 520# 350 280 28 0.20 4 10 28 140# 470# S(2p) 443 −10950# 1350# 26530# 990# −11100# 810# 22200# 740# −11060 520 16740 380 −9790 330 11340 250 −8822 20 5300 30 −7836.5 2.0 −914.8 0.6 −6465.7 0.5 −7875 1.0 −5064.4 1.1 −14890 16 −2688 16 −22620# 50 −2210 50 −29040# 300# −3360# 320# ∗ 620# −4580# 650# ∗ 28760# 950# 23620# 780# 18490 330 13390 200 7845 40 1366 0.6 −5575 4 −10797 10 −18930# 28 −27040# 150# ∗ 370# ∗ 940# 460# 260 230 20 1.2 16 50 300# 600# ∗ −32650# −27820# −26270 −19710 −17010 −10098 −7623.6 838 3960 13170# 14660# 960# 550# 340 220 14 20 10 28 140# 300# ∗ ∗ −32050# −25970# −24010 −17160 −15114 −7188 −4240 2694 6810# 14840# ∗ 30330# 1040# ∗ −13300# 1080# 25440# 650# ∗ −12740# 760# 20020# 340# −31160# −11710 400 15490 260 −29220# −10080 300 9970 170 −22420 −8790 40 3739 20 −21090 −7274.4 0.6 −3299.5 1.6 −13901 −5776.0 0.3 −9032.4 1.4 −11437 −3482.3 1.6 −15300# 200# −2755.9 −2614.8 1.5 −22730# 500# −1038 −2070# 200# ∗ 6970# −2130# 530# ∗ 10890# 990# 840# 530 210 90 3 1.0 16 50 300# 610# 8860# 9070# 2930 1780 −5344 −6497.7 −13948.1 −15867 −24420# −27390# −35400# ∗ 1020# 450# 270 230 20 0.8 1.6 11 110# 240# 670# 960# 460# 260 230 20 4 10 28 140# 300# 9640# 9690# 3070 2810 −4074 −5282 −12833.8 −14524 −22150 −26340# −32260# ∗ 990# 560# 410 220 14 20 1.0 17 50 300# 610# 950# 570# 380 220 14 20 1.6 4 200# 500# 11160# 11430# 4440# 4480 −2190 −3166 −10786 −12479 −18284 −22380# −30020# ∗ 1120# 690# 370# 260 170 20 4 10 28 140# 360# 880# 470# 270 280 20 0.7 0.9 100 300# 600# 13830# 6750# 6030 840 −142 −7773.13 −9331.4 −15148.6 −16380 −24970# ∗ ∗ 444 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) S(p) Q(4β − ) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z 66 Cr Mn Fe Co Ni Cu Zn Ga Ge As Se 24 25 26 27 28 29 30 31 32 33 34 5070# 3650# 6770 5010 8951.6 7065.93 11059.1 9139 13280 12590# 16870# 780# 670# 390 250 1.5 0.09 1.0 3 100 740# 670# 20830# 1000# 41210# 15750# 640# 30010# 16190 620 19330 12520 350 7610 14125 13 −4380 8421.2 0.7 −14760 8924.7 1.0 −27180# 5102 3 ∗ 6260 30 ∗ 2380 690 ∗ 2030# 420# ∗ 600# 1310# 400# 7610# 300 3750 250 9370 30 4497 680 11551.8 300# 7235.6 12990 7920 13560 8510# 67 Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br 24 2320# 25 5220# 26 4190 27 7020 28 5808 29 9131.8 30 7052.33 31 11227 32 9100 33 13220 34 12840# 35 ∗ 920# 640# 510 410 3 1.4 0.22 3 30 690 360# ∗ 15900# 16730# 12780 14920 8601.5 8911.1 5269.2 6222 2310 2280# −1640# 44690# 780# 33920# 580# 22190 440 11820 250 −1085 1.8 −10670 1.0 −21390# 1.2 −34080# 6 ∗ 100 ∗ 710# ∗ 590# ∗ 700# 2910# 1060# 1210# 500# 5100# 710# 4610# 420 5690 680 1790 320 6530 400 4570 5 6138 13 914 100 8518.1 1.4 4644.6 200# 10094.0 1.0 2407.9 500# 9742.7 1.4 3988.0 10710 5 1041 10480 140 2570 11200# 360# −2110# 10830# 780# ∗ 990# ∗ 640# −12360# 490 −6890# 420 −6800 20 −3330 1.4 −1880 0.8 4865.2 1.4 4191.0 5 8992 100 7830 410# 13510# 12370# 68 Mn Fe Co Ni Cu Zn Ga Ge As Se Br 25 26 27 28 29 30 31 32 33 34 35 3270# 5510 4360 7792 6319.6 10198.10 8277.8 12393 10320 15800# 13920# 780# 810 450 4 2.0 0.19 1.7 8 110 200# 620# 16840# 17010# 12950 15690 9113 9977.4 6494.6 7389 3530 4860 −560# 920# 36970# 860# 26880 520 15740 320 3516 3 −6670 1.5 −15790 1.2 −28440# 6 ∗ 40 ∗ 110 ∗ 300# ∗ 600# 6910# 700 3840# 320 8930 7 3360 40 11150.1 30 6961.9 360# 12524.1 7455 13440 8000 13790# 780# −11700# 1000# 880 −9690# 860# 400 −5030 620 13 −6940 240 1.7 −751 13 1.0 765.2 0.8 1.6 5823.9 1.6 6 4578 6 110 9400 40 300# 7850 110 700# 13990# 470# 69 Mn Fe Co Ni Cu Zn Ga Ge As Se Br Kr 25 26 27 28 29 30 31 32 33 34 35 36 4770# 1000# 3340# 860# 6720 460 4586 5 8240.5 2.1 6482.07 0.16 10313.0 1.9 8192 6 12260 50 10160 50 15910# 370# ∗ ∗ 17090# 14160 15920 9561 10139.9 6609.5 7303.5 3400 4690 −450# 1080# 40440# 780# 30020# 770 19330 320 7122 3 −2650 1.9 −12120 1.5 −22850# 2.0 −34670# 30 ∗ 50 ∗ 100# ∗ 540# ∗ 800# 4460# 1060# 500# 5720# 710# 340 6400 530 4 5790 320 30 8717 3 30 9611.6 1.6 110# 9263.5 1.5 400# 10489.9 1.8 10280 30 11060 110 10730# 220# 11070# 640# 70 Fe Co Ni Cu Zn Ga Ge As Se Br Kr 26 27 28 29 30 31 32 33 34 35 36 5580# 3710 7240 5311.2 9218.0 7653.65 11533.8 9330 13820 13020# 17310# 17890# 1000# 33670# 600# 3410# 840# 2370# 14540# 980# 23270 840 8200 1090 4910 16440 480 11410 350 2910 470 780 10286 4 1370 50 11198 3 5631 11117.4 2.4 −7520 60 6713.2 2.5 2618.2 7781.1 1.5 −17480# 310# 11807.9 1.5 3834.4 8524.3 1.6 −28890# 390# 7233.8 1.7 1180.6 4530 50 ∗ 13350 50 3180 6250 70 ∗ 7560 80 −530 2410# 310# ∗ 13500# 310# −70# 2490# 400# ∗ 7680# 530# −4010# 780# 900 350 2.1 2.1 0.17 1.7 60 70 320# 560# 920# 980# 570# 4140# 400 1640 370 4300 20 698 0.7 4118.3 0.8 1544.2 3 3353 30 −210 680 270# 470# −3040# 840# 4060# 810# 2410 440 4390 250 570 2.1 4423.1 1.0 2120.5 1.2 3689.5 7 541 50 2380 680 −2370# 470# −860# 840# −13950# 1160# 500# −9700# 720# 400 −8400# 430# 300 −4110 360 20 −4810 170 0.7 1229 20 0.8 2259.5 0.8 3 7502 3 30 6240 30 710# 10690 680 590# 10840# 360# 860# 580# 420 280 20 0.8 1.3 5 100 200# 620# ∗ −7950# −8100# −4760 −3980 3234.7 2576.9 7445.2 6280 10970 10670# 14930# 780# 520# 300 250 1.7 1.4 1.6 30 50 690# 500# 780# −11200# 940 −6590# 470 −7810 3 −2270 2.3 −176 1.5 4055.1 1.2 2963.7 50 8180 120 6260 360# 10870# 630# 10460# 920# 980# 540 320 3 1.7 1.2 50 60 320# 430# 4360# 1000# 2720# 640# 4430 450 1000 250 5134.1 2.0 2704.4 1.1 4435.7 1.5 1488 3 3400 40 60 680 110# 320# ∗ G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) Q(α ) S(2p) Q(2β − ) 445 Q(β − n) Q(ε p) A Elt. Z 66 Cr Mn Fe Co Ni Cu Zn Ga Ge As Se 24 25 26 27 28 29 30 31 32 33 34 7790# 9780# 10950 12460 15049.6 16976.7 19038.5 21033 23420 28120# ∗ 720# 480# 410 250 1.5 0.7 1.0 4 40 770# ∗ 35430# 31000# 28070 25810 21044 16378.1 12878 10200 7250 1950# −15570# 1080# 24780# 810# −14260# 640# 19860# 500# −11580 450 16430 370 −10500 340 10150 280 −9530 15 2893.1 20 −7252 20 −2534 0.8 −4578.2 0.8 −7280 3 −3352 5 −12220 30 −2880 30 −19900# 680 −1930 680 ∗ 300# −1900# 330# ∗ 670# 470# 300 250 1.7 3 30 680 300# ∗ −32290# −29070# −22730 −22420 −14377 −11062.3 −3750 −3000 3870 7400# 900# 590# 590 240 13 0.8 3 30 680 310# 7810# 6550# 1530 940 −6813.9 −8418.0 −14313.6 −15380 −22720# −26660# ∗ 800# 470# 300 250 1.6 0.3 1.1 100 300# 900# 67 Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br 24 25 26 27 28 29 30 31 32 33 34 35 7400# 8870# 10960 12030 14759.3 16197.8 18111.5 20365.1 22390 25810# 29720# ∗ 860# 740# 480 320 3.0 1.4 1.0 1.5 100 320# 630# ∗ 36730# 32480# 28970 27440 22727 17332.3 14194.0 11324 8570 4650# 400# 950# 650# 620 240 13 0.8 1.4 5 100 220# 590# −16280# 1220# 26640# −14920# 780# 21660# −12590# 510# 18050 −11130 410 12260 −10620 170 4138 −7903 20 −439.1 −4792.8 0.8 −5223 −3725.1 1.3 −10230 −2870 5 −16170# −2530 100 −23850# −2010# 280# ∗ −1400# 710# ∗ 810# 600# 420 320 3 1.8 5 100 200# 510# ∗ ∗ −28190# −26100# −21460 −18500 −9163.1 −7910.4 −1047 −210 7850# 11420# 9130# 8100# 730# 2350 510# 2870 300 −5555.7 250 −6490.7 1.7 −12227 1.4 −13330 5 −19230 100 −23000# 200# ∗ 850# ∗ 810# 590# 490 320 3.0 1.5 3 30 680 310# 68 Mn Fe Co Ni Cu Zn Ga Ge As Se Br 25 26 27 28 29 30 31 32 33 34 35 8490# 9700 11380 13600 15451.4 17250.43 19504 21500 23540 28640# ∗ 720# 760 410 3 1.7 0.29 3 30 680 300# ∗ 32910# 29680# 28470 24030 18578.9 15405.8 12658 9750 7170 1720# −15620# 920# −12400# 510# −11160 300 −11120 250 −8199 1.7 −5332.9 1.6 −4086.8 6 −3401 40 −2490 40 −2290 770# −1550# 920# 22750# 810# 20340 420 14220 280 6543 20 1519.1 0.8 −3027 1.4 −8190 6 −12760 40 −20260# 50 ∗ 510# ∗ 680# 700 320 3 2.2 6 40 30 360# ∗ −31370# −25240# −25060 −17790 −13554 −7056.3 −6388 690 1150 10720# 990# 600# 420 320 3 2.0 6 40 30 370# 9020# 3860 4320 −4216 −5757.9 −11198.9 −12500 −18400 −20480# −29490# ∗ 730# 770 320 3 1.8 1.2 5 100 200# 500# 69 Mn Fe Co Ni Cu Zn Ga Ge As Se Br Kr 25 26 27 28 29 30 31 32 33 34 35 36 8040# 8850# 11080 12379 14560.1 16680.17 18590.7 20585 22580 25950# 29820# ∗ 950# 650# 460 5 1.8 0.25 1.7 5 100 200# 510# ∗ 33930# 31180# 28860 25250 19253 16586.9 13798.1 10780 8220 4410# 520# −16470# 1130# 24700# 860# −13030# 710# 21580# 610# −11750 630 15730 420 −11530 240 8439 320 −8991 13 3591.5 3 −5716.8 0.8 −1317.4 1.7 −4489.0 1.4 −6240 1.6 −3613.9 1.5 −10800 30 −2850 30 −16610# 30 −2310 110 −23870# 150# −1920# 320# ∗ 450# −1940# 720# ∗ 870# 500# 340 4 1.8 1.6 30 30 110# 400# ∗ ∗ −28700# −24140 −21670 −12243 −11049.7 −4382.4 −3290 3390 5130# 14490# 9760# 1060# 4880# 600# 680# 5390 340 700 −2483 4 320 −3800.3 1.7 3 −9403.2 1.2 2.0 −10419 6 1.6 −16270 40 30 −16940 50 30 −25730# 360# 110# ∗ 400# ∗ 70 Fe Co Ni Cu Zn Ga Ge As Se Br Kr 26 27 28 29 30 31 32 33 34 35 36 8910# 10440 11830 13551.7 15700.1 17966.6 19726 21590 23970 28930# ∗ 920# 900 350 2.2 2.1 1.9 6 70 70 470# ∗ −13530# 31620# 1030# −11810# 30600 780 −12000 26200 320 −9290 20679 4 −5983.3 17921.0 2.0 −5076.7 15133.8 1.2 −4088.6 11830 50 −3040 9640 60 −2850 7110# 310# −2350# 2040# 390# −2380# 690# 840 350 2.0 2.2 50 60 310# 380# ∗ −27630# 1160# −28040# 610# −20260 340 −16875 4 −10462.8 1.8 −9434.1 1.3 −2300 50 −2230 60 4370# 310# 7340# 390# 840# 23250# 930# 17330 460 10410 250 5934.0 2.4 998.5 1.4 −4570 1.2 −8520 50 −12920# 70 −20370# 750# ∗ 490# ∗ 6030# 6260 −1480 −2629.5 −8308.2 −9880.8 −15550 −16110 −23640# −27060# ∗ 680# 840 350 1.9 1.6 0.6 30 60 120# 500# 446 A Elt. G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Z S(n) S(p) Q(4β − ) Q(d,α ) Q(p,α ) Q(n,α ) 71 Fe Co Ni Cu Zn Ga Ge As Se Br Kr Rb 26 3170# 1000# ∗ 36330# 27 6300 1190 15260# 1030# 26270 28 4130 510 16850 920 14700 29 7806.3 2.2 10850 350 5183 30 5834 10 11640 10 −4210 31 9301.5 1.6 7864.6 2.2 −13080 32 7415.94 0.11 8286.6 1.6 −22980 33 11620 50 4620 4 −35590# 34 9140 70 6060 60 ∗ 35 13710# 650# 2310 570 ∗ 36 13320# 760# 2790# 720# ∗ 37 ∗ −2080# 630# ∗ 800# 840 370 4 30 570 650 500# 5010# 1130# 2460# 1000# 5230# 980# 4120 1090 5510 500 1010 490 7978 4 5617 3 9120 10 3104 10 8988.5 1.3 4731.0 1.2 10130.8 1.6 2042.4 1.7 9917 4 3950 7 10680 40 650 50 9950 570 2020 570 10260# 660# −3420# 740# 10840# 640# ∗ ∗ −9630# 1030# −6430 790 −5710 320 1783 11 1073.2 1.9 5745.9 1.2 4838 4 9510 30 7480 570 12940 650 11980# 620# 72 Fe Co Ni Cu Zn Ga Ge As Se Br Kr Rb 26 27 28 29 30 31 32 33 34 35 36 37 5370# 1130# ∗ 39830# 3500# 1030# 15590# 1000# 29290# 6810 570 17360 950 18650 5143.2 2.0 11870 370 8447 8876 12 12709 6 −237 6520.45 0.19 8551 10 −9570 10749.5 1.8 9734.6 1.8 −18645 8407 6 5611 4 −30110# 12850 30 7289 13 ∗ 10020 570 3190 70 ∗ 15090 650 4170 570 ∗ 13880# 710# −1520# 820# ∗ 800# 600# 440 5 13 60 8 500# ∗ 7310# 2410 10080 5556 11686.1 7035.0 13044 7160 13740 8200# 14270# ∗ −8350# 1000# −9900# 670# −4130 340 −2506 7 2793.2 1.7 1478.5 1.9 6744 5 4853 12 9720 70 8010 40 14010# 510# 73 Co Ni Cu Zn Ga Ge As Se Br Kr Rb Sr 27 28 29 30 31 32 33 34 35 36 37 38 5810# 3990# 7275 5350 9181.3 6782.94 10798 8395 12690 10682 16010# ∗ 700# 300# 6 40 50 7 150# 600# 4680# 1060# 4720# 890# 6930 370 8010 40 8338 10 9553.5 1.8 9662 4 10388 11 10200 60 11220 570 11580# 670# 11320# 780# 74 Co Ni Cu Zn Ga Ge As Se Br Kr Rb Sr 27 28 29 30 31 32 33 34 35 36 37 38 3280# 1060# 6580# 500# 5091 7 8370 60 6422 4 10196.22 0.06 7975 4 12066 11 9750 50 13851 7 13940# 150# 17070# 780# ∗ 18630# 13430# 14010 9930 11012.1 6851.4 8545 4377 5990 2654 1930# 75 Co Ni Cu Zn Ga Ge As Se Br Kr Rb Sr 27 28 29 30 31 32 33 34 35 36 37 38 5320# 1130# 3600# 570# 6180 980 4830 80 8486 4 6505.31 0.07 10243.8 1.9 8027.60 0.07 11904 21 10063 8 13376 8 14000# 550# ∗ 38960# 18940# 900# 27960# 13040# 1060# 18910 13750 70 9700 10040 50 674 11096 4 −7533 6898.9 1.0 −15811 8598.0 1.8 −25550 4215 14 ∗ 6307 17 ∗ 2179 8 ∗ 1990 220 ∗ 920# 530# 4 40 2.0 0.05 5 16 80 10 530# 16030# 1060# 32660# 17850# 670# 21440# 12340 440 11970 12920 40 2810 8857 6 −6070 9997.1 1.8 −14746 5660 4 −24910# 7277 11 −36520# 3020 50 ∗ 4830 60 ∗ −600# 150# ∗ 870# 780# ∗ 35800# 800# 810# 25050# 400# 300# 14854 7 50 6500 50 40 −2744 16 2.3 −11090.9 2.6 1.7 −18943 4 4 −31520# 500# 18 ∗ 50 ∗ 8 ∗ 530# ∗ 800# 400# 980 70 14 8 8 220 1870# 1130# 840# 3960# 780# 950 930 550 350 5060 4 6 2469 6 2.2 4692.6 1.3 2.0 1605.9 2.0 4 3735 5 50 60 30 90 2150 70 310# −2600# 110# 630# −820# 640# ∗ −8320# −7700 −610 −1076.8 3913.5 3600 7992 6360 11140 11020# 15620# 670# 840 350 2.3 2.5 4 11 70 60 340# 710# 6760# 1130# 3620# 1130# ∗ 1640# 720# 370# 930# −11730# 8640 440 4060 370 −6490 4780 50 1870 50 −4860 10793 7 4141 11 308 5877.7 1.8 1581.9 1.8 −449 12436.8 1.7 3911.8 2.5 4926.7 6728 4 546 4 3341.4 13299 19 2670 40 8235 7390 60 −400 570 6430 12735 9 −130 650 10790 8130# 710# −3530# 710# 11870# 900# 840 370 4 10 2.5 1.9 16 30 570 820# 3730# 640# 5030 2430 4729.4 2476.6 4470 990 3280 −260# 490# ∗ 920# 890# 350 40 2.6 2.0 4 50 80 310# 410# ∗ 3660# 1130# 3850# 810# 260# 720# 6450# 1020# 4680 1070 7230 70 2180 70 7660 40 4531 7 8553.7 2.3 1597.0 1.8 8975.9 1.0 4417.6 1.0 9498 4 925 4 9789 18 3619 19 10020 50 −440 60 10041 10 1583 11 10140# 270# −3640# 550# ∗ −9960# 900# −9170# 1150# −2880 440 −3035.2 2.8 1921 6 1203.4 2.0 6063.3 0.6 4737 15 9217 15 7440 60 12970 220 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) 71 Fe Co Ni Cu Zn Ga Ge As Se Br Kr Rb 26 27 28 29 30 31 32 33 34 35 36 37 8750# 10010 11370 13117.5 15052 16955.1 18949.8 20950 22960 26730# 30630# ∗ 950# 900 370 2.0 10 1.6 1.7 30 50 580# 770# 72 Fe Co Ni Cu Zn Ga Ge As Se Br Kr Rb 26 27 28 29 30 31 32 33 34 35 36 37 8540# 9800# 10930 12949.5 14709 15821.9 18165.4 20030 21990 23730# 28410# ∗ 73 Co Ni Cu Zn Ga Ge As Se Br Kr Rb Sr 27 28 29 30 31 32 33 34 35 36 37 38 9310# 10800# 12418 14230 15701.7 17532.4 19205 21240 22710 25770 29890# ∗ 74 Co Ni Cu Zn Ga Ge As Se Br Kr Rb Sr 27 28 29 30 31 32 33 34 35 36 37 38 75 Co Ni Cu Zn Ga Ge As Se Br Kr Rb Sr 27 28 29 30 31 32 33 34 35 36 37 38 Q(α ) S(2p) Q(2β − ) 447 Q(β − n) Q(ε p) ∗ −14380# 1060# 24200# 33150# 1160# −12900# 980# 18840 31390# 620# −11940 560 12120 27290 340 −10070 320 7429.1 21926 11 −6009 11 2581 18982.0 1.7 −5246.4 1.6 −2246 16067.7 1.3 −4452.2 1.2 −6790 13145 4 −3440 4 −10830 10590 30 −2880 30 −16190 8550 570 −2840 580 −24760# 5200 650 −2860# 680# ∗ 410# 510# −1930# 710# ∗ 880# 840 370 1.8 10 4 30 570 650 760# ∗ ∗ −26590# −24360 −15470 −14453.1 −7632.1 −6273 160 −10 7830 11830# 700# 840 350 1.9 2.2 4 30 570 660 590# 1000# 1030# 560 2.1 6 1.6 1.8 50 60 310# 390# ∗ ∗ 32620# 28720 23560 20191.2 17599.2 13898 11909 9250 6470 1270# 740# 840 350 1.9 2.5 5 12 80 60 590# 25640# 840# 20480# 820 14190 320 8806.4 7 4455 1.9 −360 1.9 −4692 5 −9210 14 −13953 70 −20900# 30 ∗ 620# ∗ 910# 600# 440 1.7 6 4 12 60 14 510# ∗ ∗ −30230# −23200 −20220 −13167.2 −12548 −5379 −5276 1590 1890 11660# 7500# 1160# 7830# 700# 910# 700 440 840 −527 10 370 −6062 6 1.8 −6752.96 0.29 10 −12763 4 4 −13180 30 12 −18900 570 60 −20160 650 30 −29710# 500# 760# ∗ 1090# 470# 4 40 2.0 1.8 6 30 570 650 530# ∗ 33440# 29690 24780 21566.1 18549 15394 12888 10310 8010 3570# −650# −14160# 1060# 21950# 860# −13890# 590# 15550# 840 −11410 340 10713 370 −7860 40 5890 2.2 −6388.0 2.2 1257 10 −5304.5 1.9 −3080 4 −4054 4 −7330 11 −3542 11 −11666 50 −2970 60 −17580# 30 −2680 40 −24850# 590# −2000# 180# ∗ 880# −1690# 720# ∗ 700# 300# 4 40 4 11 50 13 160# 600# ∗ −28850# −26980# −18760 −17205.3 −10455 −9656 −2921 −2690 4054 5670# 14950# 860# 600# 440 2.2 6 4 11 50 14 160# 600# 8830# 1850# 1073 −4890 −5184.7 −11139 −11134 −17270 −17760 −26510# ∗ ∗ 820# 300# 7 40 2.3 4 12 60 50 500# 9090# 1000# 10580# 590# 12366 6 13720 50 15603 4 16979.16 0.08 18773 4 20461 12 22430 60 24533 8 29940# 500# ∗ ∗ 34650# 31280# 26350 22845 19869 16848.5 14204.8 11654 9015 7480 1330# ∗ 900# −14900# 600# −12790 440 −8980 4 −7498 6 −6282.7 2.5 −4374.8 0.6 −4074.5 16 −3390 12 −2710 60 −2920# 500# −1450# 800# 400# 7 50 4 0.6 15 2.6 16 500# ∗ ∗ −26260# −23140# −16352 −15300 −8449.6 −8204.2 −1638 −1403 4420 8570# 700# 300# 5 40 2.9 0.6 15 11 50 500# 9540# 2540# 1330 −4080 −4823 −10537 −10714 −16660 −16826 −24350# −28290# ∗ 860# 400# 40 50 4 4 11 50 16 150# 600# 8610# 1060# 10180# 500# 11280 980 13200 80 14907.9 2.9 16701.53 0.09 18218 4 20094 11 21650 50 23915 10 27310# 150# 31070# 640# ∗ ∗ 24620# 1260# ∗ 10800# ∗ −15330# 900# 18570# 410# ∗ 4030# 31660# 1200# −12670 1290 14340 980 −29160# 1260# 3520 27180# 310# −9690 370 9390 70 −21390# 410# −2490 24056 5 −8178.4 2.8 4568 3 −19747 7 −3113.5 21020 40 −6954 10 312.6 0.6 −13440 50 −9067.8 17911.0 2.5 −5317.1 2.0 −3893 14 −12272 4 −8891.0 15449.4 0.6 −4686.2 1.9 −7845 8 −6035.6 0.6 −14934 12760 15 −3670 15 −11917 16 −5568 14 −14879 10684 13 −3630 30 −17700 220 600 8 −20478 8170 50 −2580 570 ∗ 795 17 −24600# 4650 220 −2120 690 ∗ 8420 220 ∗ 900# 400# 980 70 2.9 1.7 0.8 15 14 9 500# ∗ −13130# −13240 −10860 −7092 −5447.3 −5003.6 −3569 −3340 −2540 −2150 −1900# 23760# 720# 17340# 840 12043 350 7710 4 2810 2.5 −1209.7 2.6 −5554 1.9 −9881.2 50 −13389 60 −21640# 310# ∗ 630# ∗ 6570# 1160# 7210 910 −300 370 −1217.8 2.5 −6488 10 −7648.45 0.24 −13640 50 −13920 60 −19760# 310# −23460# 690# ∗ ∗ 448 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(n) 76 Ni Cu Zn Ga Ge As Se Br Kr Rb Sr Y 28 29 30 31 32 33 34 35 36 37 38 39 5780# 4930 7740 5903 9427.9 7328.41 11154.35 9221 12762 11329 15690 ∗ 77 Ni Cu Zn Ga Ge As Se Br Kr Rb Sr Y 28 29 30 31 32 33 34 35 36 37 38 39 78 Ni Cu Zn Ga Ge As Se Br Kr Rb Sr Y Zr 79 Cu Zn Ga Ge As Se Br Kr Rb Sr Y Zr S(p) 990# 980 110 3 0.5 0.07 0.29 17 9 8 220 Q(4β − ) Q(d,α ) Q(p,α ) ∗ −8290# −6630# −1664 −2160 3056.2 1691.9 6314 4850 8800 7950 13000# 700# 310# 4 40 2.5 0.5 10 11 50 40 530# 950# ∗ 570# −10680# 120 −4700# 50 −4340 4 140 1.8 −221 1.7 4469.2 2.8 3271 15 7689.7 8 6128 10 10174 510# 10660# 900# 420# 7 50 4 0.5 3 2.6 17 10 60# 70# 1360# 990# 4020# 570# 90 1640 980 80 3630 70 4 1466 5 10 3903 10 0.8 870.4 0.8 4 3581 4 10 −177 14 8 2251 11 8 −1088 11 400# −1040# 460# 710# ∗ ∗ −9600# −7800# −3940 −3750 1294 476.7 5227 3635.7 7849 6796 10340# 10570# 900# 410# 980 70 10 0.5 4 2.0 16 11 400# 550# 710# 4150# 1030# 480# 2420# 260# 160 4490 130 90 1670 90 6 4441 5 1.8 1236.0 0.9 1.7 4047.6 1.7 5 710 10 6 3075 7 11 −133 9 450 750 450 410# −3790# 640# ∗ −6160# −5890 −1710 −1693 2941.85 1867.4 6456 5132 9184 7770 12530# 940# 100 120 6 0.22 1.8 4 11 9 450 400# 19400# 1210# 31600# 14360# 400# 21314 15310 980 13120 11120 70 3993 12037.4 2.9 −4199 7722.0 1.0 −11809.7 9508.6 0.8 −21010 5409 9 −31590# 7164 15 ∗ 3445 8 ∗ 4310 40 ∗ −630# 550# ∗ 900# 1350# 1210# 290# 1140# 7 8110# 400# 3750# 300# 80 4580 80 1710 80 10 10120 50 3980 40 4 5547 4 1350.3 2.4 2.6 11843.7 1.0 3872.1 1.0 40 6318.7 1.7 569 4 500# 12634 9 2793 14 7003 16 −520 50 12562.5 2.8 936 7 8380 40 −3330# 160# 12700# 710# −2140# 780# 3210# 1030# 5670# 400# 4660 140 7767 3 6072.3 0.4 9698.4 1.9 7418.86 0.06 11017 10 9226 4 12416 8 11630 40 16270# 510# ∗ 14260# 15040 11140 12206.4 7992.5 9599.1 5271.8 7169 3099 4613 −50# 34470# 990# 25340# 120 15880 80 7243 2.6 −1044.6 1.8 −9092 0.8 −16796 2.8 −26330# 10 ∗ 8 ∗ 9 ∗ 50# ∗ 500# 400# 120 4 2.6 8 9 60# 3460# 6040# 6110 7190 7961.4 8650.7 9143.6 9644.9 9680 10210 10128 10430# 950# 370# 570# 4660# 990 2150 70 4580 3.0 1700 1.8 4369.9 0.8 1124.4 2.8 3841.9 14 1 11 2371 12 −1023 230# −1340# 28 29 30 31 32 33 34 35 36 37 38 39 40 5620# 1210# 4240# 570# 6690 150 5786 3 8719 4 6972 10 10497.81 0.16 8289 5 12081.6 2.2 10183 11 13441 12 13690# 410# ∗ ∗ 15290# 16050# 12270 13159 8892 10398.5 6142 8234 4056 5638 2010# 2090# 37570# 640# 28070# 410# 19680 120 9746 5 2318 10 −5881 1.8 −13852 4 −20930# 3 −32480# 8 ∗ 11 ∗ 400# ∗ 510# ∗ 1100# 400# 90 5 4 12 8 400# 500# ∗ 7570# 4340 9140 5145 11106 5974.2 12511 6820 12789 8017 12430# 7710# 29 30 31 32 33 34 35 36 37 38 39 40 5650# 4150# 6870 5700 8890 6962.83 10688 8334 11938 10374 13900# 13730# 15320# 1210# 31310# 15960# 480# 22500# 12460 130 13560 13070 90 4950 9063 7 −2833 10389 10 −10441 6331.4 1.7 −17710 8279 5 −27090# 3913 6 ∗ 5829 11 ∗ 2470 450 ∗ 2120# 570# ∗ 500# 260# 100 90 8 9 450 400# 5130# 5870# 6920 7210 8288 8709.8 9241.9 9503 10077 10059 10160 10260# 640# 270# 100 90 11 0.13 4 4 10 11 600# 640# Q(n,α ) G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) S(2p) Q(α ) Q(2β − ) 449 Q(β − n) Q(ε p) 76 Ni Cu Zn Ga Ge As Se Br Kr Rb Sr Y 28 29 30 31 32 33 34 35 36 37 38 39 9380# 11112 12570 14390 15933.2 17572.2 19181.9 21126 22825 24705 29690# ∗ 990# 9 90 4 0.5 1.9 0.3 18 5 4 500# ∗ 33310# 28340# 24868 22080 18818 16407.6 14007 11380 9752 6490 1360# 800# 410# 6 50 4 0.5 9 4 15 40 500# −15740# 1210# 20530# −14100# 600# 15321 −10620 440 11080 −8938.6 2.4 5992.9 −7507 6 2039.00 −6125.0 2.0 −2000 −5091.1 0.5 −6238 −4484 10 −9809 −3545 13 −14770 −3890 60 −21780# −2730 40 ∗ −3010# 710# ∗ 910# 7 80 2.7 0.05 9 4 10 40 500# ∗ −28770# −25520# −19470 −18030 −11114 −10684.6 −4546 −4134 1370 2790 11230# 800# 410# 980 70 3 0.5 9 4 14 40 500# 77 Ni Cu Zn Ga Ge As Se Br Kr Rb Sr Y 28 29 30 31 32 33 34 35 36 37 38 39 8990# 10600# 12400 13670 15500.2 17026.8 18573.2 20239 21988 23745 27330 ∗ 640# 1060# 140 3 0.6 1.9 0.3 14 8 11 220 ∗ 33660# 29400# 26450 23320 20030 17321.1 14780.4 12578.4 10263 8058 4260# 900# 420# 980 70 3 0.5 2.9 2.6 16 12 60# ∗ −13970# −11280# −9431 −8230 −6642.2 −5727.0 −4703 −4377 −3620 −3677 −3280# 21980# 810# 17420# 320# 12490 5 7924 40 3385.6 2.8 −682 0.5 −4430.2 5 −8410 11 −12365 50 −17920# 11 ∗ 160# ∗ 520# 400# 120 3 0.4 3 2.6 8 10 60# ∗ ∗ −24400# −22305 −16370 −14909 −8675.52 −8234.4 −2206.4 −1824 3921 6290# 6160# 5490# 910# −500 7 −850.6 80 −6995.8 3 −6735.8 0.08 −12382 2.9 −12292 2.6 −17760.9 12 −18650 10 −27170# 60# ∗ 78 Ni Cu Zn Ga Ge As Se Br Kr Rb Sr Y Zr 28 29 30 31 32 33 34 35 36 37 38 39 40 8830# 1420# 9920# 400# 11350 120 13553 3 14792 4 16671 10 17916.67 0.17 19306 10 21308 4 22599 8 25070 40 29970# 640# ∗ ∗ ∗ ∗ −14930# 30310# 910# −11400# 27309 7 −10125 24300 80 −8580 21099 10 −7193 18390.98 0.18 −6028.6 15741 4 −5017 13505.6 2.0 −4391.9 11225 12 −4055 8738 8 −3267 6630# 400# −3040# 2040# 500# −3430# 23050# 900# 18960# 410# 14520 7 9111 50 5164 11 635 0.5 −2846.4 4 −6516 2.0 −11006 17 −14410# 8 −21470# 400# ∗ 710# ∗ 1100# 400# 90 10 4 10 2.0 8 8 400# 500# ∗ ∗ −27880# −22420# −20430 −14114 −13101.0 −6825 −6869.1 −990 −293 5010# 8810# 510# 400# 120 10 0.4 4 2.0 8 8 400# 500# 79 Cu Zn Ga Ge As Se Br Kr Rb Sr Y Zr 29 30 31 32 33 34 35 36 37 38 39 40 9890# 10840# 12660 14420 15863 17460.64 18976 20416 22121 23815 27590# ∗ ∗ 31250# 28510# 25340 22222 19281.5 16729.9 14421 12146 9885 8110 4130# 950# 20180# 480# 16070# 980 11130 110 6430 6 2432 0.5 −1475 1.8 −5265 4 −8966 15 −12450 12 −18120# 450 ∗ 460# ∗ 510# 240# 100 90 5 4 6 9 450 400# ∗ −26410# −25050# −19430 −17219 −11344 −10540 −4706 −4640 1414 1290 8530# 1130# 410# 130 6 4 10 4 7 8 450 400# 640# 290# 100 90 6 0.21 3 4 10 13 450# 570# 410# 150 6 0.5 2.0 4 7 9 450 400# −15250# −11940# −10810 −9440 −7597 −6486.1 −5461.0 −4699 −4089 −3578 −3560 −3160# 4440# 1330# 3420 70 −1740 80 −2511.5 2.6 −8252.0 0.8 −8191.8 0.8 −14184 14 −14037 12 −19864 8 −21930 220 ∗ ∗ 500# 410# 120 2.9 0.9 1.8 9 5 2.7 40 500# 6210# 1170# 5900# 420# 580 90 −563.9 3.0 −6017 4 −6289 10 −11862.5 2.8 −11354 4 −17427 8 −17203 12 −24340# 60# ∗ ∗ 6940# 2220# 1280 −4740 −4682 −10537 −9960.1 −15578 −15701 −21020# −24730# ∗ 510# 260# 100 90 5 4 2.3 8 10 400# 680# 450 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z S(n) 80 Cu Zn Ga Ge As Se Br Kr Rb Sr Y Zr 29 30 31 32 33 34 35 36 37 38 39 40 2190# 780# 6500# 310# 4700 160 8100 90 6594 24 9913.7 1.6 7892.28 0.13 11521 4 9441 9 12903 11 10930 480 16230# 1540# ∗ 35710# 600# 16810# 530# 25920 170 13010# 290# 16750 120 14290 100 8377 28 9960 90 14 24 11412 5 −7452 7 7260.8 1.7 −14670 180 9112.9 2.4 −22380 1490 5019 8 ∗ 6794 9 ∗ 3030 180 ∗ 4450 1560 ∗ 81 Zn Ga Ge As Se Br Kr Rb Sr Y Zr Nb 30 31 32 33 34 35 36 37 38 39 40 41 2350# 6920 4860 8445 6700.9 10156.7 7872.9 11353 9291 12870 11040 ∗ 16970# 13430 14460 10307 11519 7503.9 9093.5 4851 6644 3000 4560 −750# 670# 30260# 300# 6910# 590# 3490# 500# 260 19990 190 6150# 320# 4220 210 170 11390 120 6920 160 2270 120 29 2922 8 7670 90 4193 7 23 −4862 7 7958 5 1292 10 2.2 −11960 60 8653.6 2.2 3915.3 2.2 2.3 −19210 170 9085.3 2.3 622 4 6 −27980# 1500# 9699 7 3589 6 9 ∗ 9986 9 273 10 60 ∗ 10170 60 2020 60 240 ∗ 10580 480 −1100# 430# 150# ∗ 10590# 1550# −910# 1580# −6180# 1140# −7590# 440# −3310 150 −3180 6 1119 4 489 10 4978.4 2.3 3644 7 8298 6 6570 60 10330 170 10700# 1550# 82 Zn Ga Ge As Se Br Kr Rb Sr Y Zr Nb 30 31 32 33 34 35 36 37 38 39 40 41 4400# 590# 3190# 360# 7390 270 5860 200 9275.8 1.2 7592.94 0.12 10966.8 1.1 8805 7 12552 8 10250 120 13780# 280# 13570# 1530# ∗ 14270# 14930 11310 12350 8395.9 9903.6 5783 7843 3950 5460# 1780# 35140# 420# 24390# 310 14970 230 5860 5 −1586 2.2 −9300 1.0 −16400# 3 −23210# 8 ∗ 100 ∗ 230# ∗ 340# ∗ 83 Zn Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo 30 31 32 33 34 35 36 37 38 39 40 41 42 1910# 4360# 3350# 7630 5818 9584 7464 10958 8858 12210 10340# 14060# ∗ ∗ 14220# 15090# 11550 12310 8704 9774 5774 7896 3610 5560 2060# 2060# 590# 360# 330 200 4 3 6 11 40 140 390# 590# 340# 230 120 24 0.4 2.2 2.3 9 9 190 1500 710# 420# 310# 300 3 4 3 7 12 110 240# 430# 39040# 29620# 19080# 9190 1455 −6680 −13520 −20120 −29050# ∗ ∗ ∗ ∗ 8560# 1250# 5160# 780# ∗ 3620# 440# 1600# 440# −9450# 530# 8920 150 4450 170 −4910# 420# 4902 28 1341 28 −5150 120 10414 24 3919 23 −521 23 5768 10 1020.7 2.0 −899.5 1.7 11847.4 1.6 3574.2 1.7 3673.5 2.0 6271 4 206 4 2353.5 2.2 12718 7 2861 7 6708 8 7339 10 −620 10 5508 7 12670 180 1450 180 9250 180 7720# 1540# −3750# 1490# 7930 1490 500# 4700# 780# 300# 9450# 340# 240 4220 270 200 9900 200 6 5276 23 100 10974.3 2.2 230# 6010.8 2.0 300# 12415 3 6875 9 12830 100 7740# 290# 13250# 1520# 500# 300# 200# 220 11 40 100 310 500# ∗ 7450# 7790# 7130 7903 8091 8704 9330 9370 9910 10270 10240 10440# 420# 270# 250 6 4 3 6 12 40 110 360 1580# 4730# 5180# 1750 4030 907 3285.2 343.1 3119 −341 2150 −970# −750# 710# 400# 260 220 5 2.2 2.0 5 8 100 500# 500# ∗ −5130# −6560# −2170 −2460 1786 974.5 5527 4081 8260 6930# 11030# 590# 360# 220 90 6 2.1 3 7 100 230# 540# 5010# 7320# 3100# 4500 1683 3615 772 3682 241 2850 −380 1420 ∗ 780# 340# 230# 220 23 4 3 6 12 40 200 1520 ∗ −7290# −3410# −5100 −179 −1203 3425 2461 6743 5490 9500 7910 13420# 670# 260# 250 28 24 3 6 10 40 100 360 1570# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(2β − ) Q(α ) S(2p) 451 Q(β − n) Q(ε p) A Elt. Z S(2n) 80 Cu Zn Ga Ge As Se Br Kr Rb Sr Y Zr 29 30 31 32 33 34 35 36 37 38 39 40 7840# 720# 10640 190 11570 120 13796 29 15485 25 16876.5 1.6 18580 4 19855.4 1.8 21379 10 23277 10 24830# 440# 29960# 1570# ∗ ∗ 22690# 610# 32130# 1110# −12660# 920# 17670 170 28960# 420# −10580 120 13020 120 26750 90 −9800 80 8245 28 23031 23 −8288 23 3730 23 20476 4 −6971.8 1.6 132.6 2.4 17650 10 −6024.9 1.8 −3717 7 15444.3 2.2 −5065.4 2.2 −7584 7 13298 8 −4309 12 −10960 180 10706 7 −3719 8 −14790 1490 8860 180 −3160 180 ∗ 6920 1490 −3700 1490 ∗ ∗ ∗ −24100# 520# −23390# 260# −16940 100 −15560 90 −9542 5 −9263.9 2.2 −3393 7 −3154 8 2300 180 2670 1490 8900# 2590 2280 −3950 −4313 −9762.7 −9518 −15160 −14768 −20020 −21930# ∗ 81 Zn Ga Ge As Se Br Kr Rb Sr Y Zr Nb 30 31 32 33 34 35 36 37 38 39 40 41 8850# 11620 12960 15039 16614.6 18049.0 19394 20794 22194 23800 27270# ∗ ∗ −11810# 590# 20180# 320# 30230# 540# −11830# 440# 14550 190 27460# 290# −10010 170 10090 120 24600 100 −8966 6 5442 6 21480 90 −7600.4 1.7 1304.5 2.3 18916 6 −6483.2 2.7 −2520 6 16354.4 2.3 −5519.4 2.3 −6166 7 13964 6 −4645 7 −9440 60 11663 7 −3783 7 −13040 170 9790 60 −3620 60 −18540# 1500# 7590 170 −3110 170 ∗ 3700# 1560# −3000# 1500# ∗ ∗ −28820# 630# −21750 210 −20690 120 −14163 28 −13105 23 −7223.1 2.2 −6854 6 −924 6 −1130 60 4530 170 6450# 1510# 4940# 320# 3460 190 −2220 120 −2845 5 −8571.4 0.5 −8153.7 2.2 −13593 7 −13218 9 −18380 180 −18570 1490 ∗ ∗ 82 Zn Ga Ge As Se Br Kr Rb Sr Y Zr Nb 30 31 32 33 34 35 36 37 38 39 40 41 6760# 530# 10110# 320# 12250 250 14310 200 15976.7 1.1 17749.6 2.2 18839.7 2.1 20158 7 21843 9 23120 200 24820# 1510# ∗ ∗ 31230# 28360 25770 22657 19915 17407.5 14877 12694 10600 8460# 6330# 560# 360# 240 200 1.9 3 6 100 230# 320# ∗ ∗ −26790# −19630 −18580 −12252 −11489.0 −5502 −5603 −30 50# 5750# 83 Zn Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo 30 31 32 33 34 35 36 37 38 39 40 41 42 6320# 7550# 10740# 13490 15094 17177 18430 19763 21410 22450 24110 27620# ∗ ∗ ∗ 29350# 26480 23620 21054 18170 15678 13679 11450 9510 7520 3840# 540# 370# 200# 220 4 7 11 40 100 310 510# ∗ ∗ −25730# −24070# −17010 −15970 −9677 −8867 −3495 −3430 2260 1940 9160# 400# 220 150 7 1.7 2.2 4 8 10 450 430# 590# 360# 230# 220 3 4 3 8 12 80 190 1530# −10590# 1210# 23170# 670# −10780# 500# 17220# 300 −10710 260 11970 230 −9040 200 7170 28 −8157 4 2995.5 23 −7104 10 −1308 2.0 −5988.3 2.1 −4581 3 −5161 5 −8000 6 −4254 6 −11820# 100 −3680 100 −15220# 230# −3440# 230# ∗ 350# −2870# 500# ∗ 360# 290 120 7 3 6 10 40 100 320 530# ∗ −9490# −9910# −9800 −8280 −7797 −6489 −5431 −4778 −3950 −3410 −3030 −2820# 590# 330# 240 90 7 3 6 11 40 100 550 640# 24600# 20490# 14440# 9130 4641 66 −3186 −6750 −10340 −13370 −18710# ∗ ∗ 650# 200 150 29 23 0.3 3 6 11 450 440# 7450# 540# 5130# 320# 390# −1160 240 280 −2010 200 120 −7690.5 2.1 6 −7873.7 0.5 2.0 −13206 6 3 −12732 7 6 −18060 60 100 −17780 200 230# −24790# 1520# 300# ∗ 540# 370# 240 200 3 6 10 40 100 330 550# 8730# 8170# 1350# −360 −5916 −6491 −11865 −11138 −16670 −16210# −21560# ∗ ∗ 590# 390# 280# 220 4 4 4 8 100 230# 310# 452 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 84 Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo 31 32 33 34 35 36 37 38 39 40 41 42 2790# 5420# 4270# 8682 6862 10520.60 8747 11920 9900 13110# 10990# 16130# 500# 360# 370# 15 15 0.30 7 11 100 220# 430# 640# 15100# 16150# 12470# 13360 9748 10711 7057.3 8858 4650 6460# 2710# 4140# 640# 420# 360# 220 15 4 2.3 7 90 200# 310# 510# 33690# 400# 9060# 24190# 300# 5570# 13670# 300# 10250# 4692 15 5080 −3640 90 10505 −10940# 200# 5776 −17870# 300# 11550 −24840# 400# 6255 ∗ 12560 ∗ 7410# ∗ 13020# ∗ 7880# 640# 420# 390# 200 15 3 3 4 90 220# 370# 500# 6890# 4600# 5090# 1446 3454 408 2808 −325 2230 −610# 1470# −3460# 500# 360# 320# 15 15 3 3 7 90 210# 340# 1550# ∗ −6470# −2450# −4000 380 −395 3871 2697 6940 5680# 9790# 8330# 420# 360# 120 16 3 3 4 90 200# 300# 430# Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc 31 32 33 34 35 36 37 38 39 40 41 42 43 4020# 2890# 5310# 4550 8882 7121 10488.6 8530 11760 9730# 13340# 11370# ∗ 640# 500# 360# 30 24 3 2.8 4 90 220# 370# 490# ∗ 16250# 12370# 13640# 9947 10970 7025.3 8642 4487 6280 2950# 4510# −850# 570# 360# 300# 24 15 2.8 4 19 140 300# 410# 570# 38560# 28410# 18840# 8670 −768 −8330 −15020 −22000# −30180# ∗ ∗ ∗ ∗ 500# 400# 200# 30 27 100 220 280# 400# 6960# 7030# 8290# 8160 7441 8239 8525.2 8683 9664 9890 10020 10570# 10800# 710# 500# 280# 220 19 5 2.8 7 22 110 240 420# 640# 7270# 4900# 7170# 2760 3848 880.3 3286.2 −50 3030 −90 1910# −1270# ∗ 710# 500# 310# 200 19 2.8 1.8 4 20 140 320# 410# ∗ −4960# −4570# −1160 −2640 1760.1 975.5 5133 3992 8510 6690 10740# 10960# 640# 360# 250 200 2.8 1.9 3 19 100 250 360# 500# Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc 31 32 33 34 35 36 37 38 39 40 41 42 43 2370# 4850# 3900# 6180 5101 9856.6 8651.00 11492 9513 12730 10750 13520# 13610# 950# 640# 360# 30 22 2.0 0.20 3 24 110 240 520# 500# ∗ 17080# 13370# 14510# 10500 11944 8555.7 9645.2 5470 7250 3970 4700 1390# 710# 500# 200# 30 19 2.0 1.1 14 40 130 490 410# 41290# 33420# 23600# 13983 3644 −5460 −12920 −19970 −26080# ∗ ∗ ∗ ∗ 800# ∗ 500# 4970# 300# 9810# 16 6250# 18 11023 30 5245 90 10394.8 440 5937.3 300# 12071 7060 12380# 8030# 13310# 640# 420# 300# 18 15 2.8 3.0 15 100 210# 530# 500# 6810# 4410# 6620# 4200 4565 607 2098.7 −585 2376 −610 1500 −730 −600# 950# 590# 360# 220 12 4 2.8 6 18 50 130 540 590# ∗ −7900# −4120# −3990# −110 −2279 1908 1105 5438 4640 8150 7550 11400# 710# 420# 200# 220 4 4 3 15 30 100 450 430# Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru 32 33 34 35 36 37 38 39 40 41 42 43 44 2460# 4900# 4110 6289 5515.17 9922.10 8428.15 11806 9620 12430 11210 13990# ∗ 710# 420# 40 21 0.25 0.20 0.12 14 30 100 490 420# 17170# 13430# 14720# 10605 12359 8621.20 9422.4 5784.1 7354 3670 5160 1860# 1420# 950# 590# 300# 24 11 0.10 1.1 1.1 16 70 240 530# 670# 36470# 28620# 18300 9162 −1361 −10410 −17190 −23900# −32010# ∗ ∗ ∗ ∗ 500# 300# 40 18 8 60 220 300# 600# 710# 500# 200# 30 19 1.9 1.1 3 21 120 320 410# 720# 4730# 7130# 4360# 6959 1954 2697.3 −266.3 2489 −330 2170# −950# 1550# ∗ 640# 420# 300# 23 15 2.8 3.0 4 90 210# 370# 500# ∗ −6230# −2690# −2130# 889 −1152 3197.0 2378 6942 5620 9440# 8400# 14110# 500# 300# 300# 15 15 3.0 3 9 110 300# 420# 720# 86 87 S(p) Q(d,α ) Elt. 85 S(n) Q(4β − ) A 6530# 7800# 7450# 9280 8612 7593.3 7997.7 8795 9205 9680 10170 10690# 11040# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) S(2p) 84 Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo 31 32 33 34 35 36 37 38 39 40 41 42 7140# 8770# 11900# 14500 16446 17984 19704 20778 22110 23440# 25050# ∗ 500# 390# 360# 14 15 3 4 6 140 300# 420# ∗ 30370# 27560# 24910 22050 19415 16832 14632 12550 10060# 8270# 6190# 590# 420# 240 200 3 3 4 90 200# 320# 460# 85 Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc 31 32 33 34 35 36 37 38 39 40 41 42 43 6810# 8310# 9590# 13230 15744 17641 19235 20450 21660 22830 24330 27500# ∗ 590# 450# 290# 30 20 3 6 11 50 140 390 580# ∗ 31350# 28510# 26110# 23310 20718 17736 15699 13345 10930 9400 7220# 3280# 86 Ga Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc 31 32 33 34 35 36 37 38 39 40 41 42 43 6390# 7740# 9210# 10731 13983 16977.2 19139.6 20022 21270 22460# 24090# 24890# ∗ 900# 590# 420# 21 18 2.8 2.8 3 90 200# 310# 590# 87 Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru 32 33 34 35 36 37 38 39 40 41 42 43 44 7310# 8800# 10300 11389 15371.8 18573.10 19920 21319 22340 23180 24730# 27600# ∗ 640# 360# 50 26 2.0 0.02 3 19 100 230 360# 500# Q(2β − ) Q(α ) −10080# −8830# −9370# −8860 −8065 −7096 −6285 −5176 −4410 −3610# −3090# −2710# 500# 300# 300# 15 15 4 90 200# 310# 450# ∗ −29240# −23980# −22340# −15210 −14379 −8030 −7951 −2370 −1990# 3160# 3360# 640# 360# 200# 220 4 4 4 20 100 230 300# 510# ∗ 23270# −9370# 500# 19360# −7770# 270# 15290# −8550 120 9052 −8502 20 3557 −7515.7 2.8 −378 −6617.4 2.0 −4325 −5833 3 −7950 −4812 20 −10690 −4050 100 −14050# −3560 230 −19490# −3040# 330# ∗ −2610# 1550# ∗ 540# 400# 200# 30 19 3 19 100 220 300# 460# ∗ ∗ 29620# 26870# 24140# 21892 19526 16670.5 14111 11740 10250 7640# 5910# 500# 300# 300# 15 15 3.0 14 30 130 480# 420# ∗ −9810# −8470# −7340 −7740 −8096.5 −7675.5 −6359.0 −5520 −4220 −4060 −2790# −2660# 24800# 710# 20700# 420# 16490# 240 12725 200 7107 2.0 1258.0 2.0 −3463 2.1 −6720 14 −9460 30 −13250 130 −16620# 490# ∗ 420# ∗ ∗ 30510# 28090# 25110# 22859 20565 17978.1 15429.3 12824 10920 9120 6550# 2810# 590# 400# 200# 30 19 2.2 1.6 9 60 240 370# 660# −10360# −9020# −8110# −6400 −7794 −8014 −7324 −6369 −4978 −4280 −3660 −2590# −2020# 710# 420# 200# 220 4 4 3 6 13 80 240 430# 780# 22350# 17870# 14130 10741 4171.0 −1579.1 −5532 −8840 −11650 −15060# −20360# ∗ ∗ Q(β − n) Q(ε p) 21980# 17710# 11720# 6479 1951 −1787 −5590 −9150# −12280# −15690# ∗ ∗ 720# 340# 330# 30 28 3 3 4 90 200# 350# 1540# 453 590# 420# 200# 220 4 4 4 90 200# 300# 410# 8720# 3560# 1190# −5014 −5889 −11428 −11026 −16390 −15770 −20610# −22200# ∗ 450# 370# 300# 15 14 7 11 40 130 370# 590# ∗ ∗ −26510# −21470# −19820# −12817 −11657 −5961 −5381 210 −280 5100 6930# 450# 300# 300# 15 15 4 19 100 240 200 500# 10120# 4940# 4560# −2700 −4251 −9802 −9595 −15020 −14420# −19340# −19420# ∗ ∗ 590# 500# 200# 30 19 3 3 90 200# 320# 460# 860# 500# 300# 16 11 1.1 14 30 90 440 310# ∗ ∗ −26390# −24760# −19610# −18126 −11426 −10332.3 −4405 −3990 730 1300 6650# 10640# 5410# 590# 5210# 400# −2 200# −2231 30 −9169.56 19 −9715.8 2.2 −14753 14 −14210 30 −18730 90 −18790# 450 −24960# 370# ∗ 510# 300# 40 18 1.1 1.6 8 60 220 300# 640# ∗ −28920# −24030# −22000# −17458 −16247 −8903.8 −7560.7 −2114 −2190 2820 3420# 9930# 860# 510# 300# 16 11 1.1 1.6 8 60 230 310# 740# 6840# 6490# 990 1337 −6033.7 −8145.5 −13668 −13290 −17590 −17700 −22560# ∗ ∗ 900# 540# 300# 25 11 0.10 2.8 19 100 230 290# 590# 590# 300# 40 18 0.3 1.1 14 30 90 440 370# 454 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) Q(4β − ) A Elt. Z S(p) 88 Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru 32 33 34 35 36 37 38 39 40 41 42 43 44 3970# 3380# 5370 4950 7054 6082.52 11112.64 9351.7 12346 9960 13080 11660# 16380# 860# 590# 60 40 13 0.16 0.16 1.9 13 120 220 360# 720# ∗ 14340# 15180# 11440 13124 9188.5 10612.9 6707.7 7893 4010 5810 2300# 3810# 39550# 710# 31320# 300# 24040 50 13570 22 3931 0.3 −6540 1.1 −15222 1.5 −21590# 10 −27980# 100 ∗ 60 ∗ 300# ∗ 500# ∗ 89 Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh 32 33 34 35 36 37 38 39 40 41 42 43 44 45 1630# 1140# 3930# 710# 3390# 300# 5910 70 5110 50 7175 5 6358.72 0.09 11474 3 9317 10 12650 100 10375 25 13210# 280# 11940# 640# ∗ ∗ 14290# 15200# 11980 13280 9309 10889.1 7069.0 7859 4316 6220 2430# 4090# −700# 860# 590# 80 60 14 1.1 2.6 4 29 100 200# 540# 200# 90 As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh 33 34 35 36 37 38 39 40 41 42 43 44 45 2380# 4800# 4120 6310 5721 7803.8 6857.03 11970 10077 13235 11430# 13870# 13630# 91 As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd 33 34 35 36 37 38 39 40 41 42 43 44 45 46 3480# 2480# 4960 4410 6455 5775 7928.9 7194.5 12047 10108 12850 11420# 13960# ∗ 950# 500# 100 50 9 2.9 0.10 3 27 16 310# 590# 670# 1210# 640# 110 60 10 5 2.5 0.5 5 13 310 660# 640# Q(d,α ) Q(p,α ) ∗ −5590# −5170# −1760# −1620 1648 −795.1 3514.6 3126 7420 6100 10090# 9100# 710# 400# 200# 30 19 2.2 1.9 11 100 100 300# 490# 5530# 1210# ∗ 7570# 710# −7140# 4820# 420# −3710# 6830 60 −3780# 3780 50 −540 6417 5 −427 1401.9 1.1 2702.8 1685.9 2.6 691.7 −721 15 5301 2020 40 4280 −310 90 8450 1580# 480# 7630# −1440# 590# 10690# ∗ 11200# 950# 590# 300# 50 12 1.1 2.6 4 30 30 220# 670# 540# 950# ∗ 500# −6040# 90 −2990# 26 −2740 7 142 2.9 414.2 2.6 3756.7 2.7 1759.5 9 6009 60 4827 330 8620 420# 8030# 780# 11550# 640# 310# 40 19 2.9 2.6 2.5 5 10 250 370# 590# ∗ −4550# −4570# −1790 −1370 1693 1910.4 5677.7 3313 7065 5740 9690# 9250# 13890# 860# 510# 80 40 14 2.9 2.5 4 15 220 580# 450# 690# 700# 4930# 1060# 4780# 500# 9270# 710# 6640# 50 5980# 300# 4310# 40 10520 40 6560 17 6658 17 3782 100 11367.38 0.19 3735.3 20 5536.1 1.1 −890.4 200# 10935.2 1.5 1667 400# 6371 17 −917 12440 100 1940 7840 90 −690 12560# 480# 1260# 8270# 500# −3120# 860# 640# 200# 50 23 2.0 1.1 3 22 140 220 340# 570# ∗ 7810# 7500# 8720 7840 9708 9099.5 7889.5 8861 9409 9890 10560# 10320# 10390# 710# 420# 70 50 5 1.1 2.6 4 28 60 300# 590# 750# 15050# 1210# 37910# 16070# 640# 30020# 12710# 310# 21870 13690 60 13797 9920 50 3295 11518 6 −5774 7567.3 2.6 −15280 8354.5 1.7 −23460# 5076 5 −29440# 6806 27 ∗ 3490 240 ∗ 4750# 360# ∗ 990# 710# ∗ 800# 9400# 400# 6070# 80 9970 19 6470 8 11041 6 7378.2 240 12145.1 300# 6242.7 500# 11678 6620 12200 8110# 13140# 1060# 640# 90 40 15 2.9 2.6 2.9 11 100 240 360# 640# 7650# 4920# 6830 3751 6212 3520.2 3257.0 −884.5 1556 −1120 1350 −1320# −1010# ∗ 16180# 12870# 13980 10064 11573 7692.4 8691.9 5154.1 6837 3110 4740# 1090# 1480# 900# 7540# 500# 7520# 70 8400# 60 7970 9 9690 12 8778 200 10574.9 580# 10522.2 400# 8947 570# 9157 9730 9900# 11120# 10970# 1280# 710# 310# 80 50 7 3.0 1.7 4 29 200 620# 640# 720# 8140# 1140# 5810# 710# 7230 90 4290 70 6811 16 3828 5 6440.8 3.0 1272.8 2.9 1855 10 −1270 100 1580 200 −1080# 620# 1410# 570# ∗ 950# 410# 100 20 8 2.8 1.7 3.0 12 200 630# 500# 760# 43030# 34570# 27010# 19130 8140 −1062 −11205 −19860# −25360# −32990# ∗ ∗ ∗ ∗ 40890# 33310# 24840 16580 8887 −1441 −10360 −19230# −27530# −34800# ∗ ∗ ∗ ∗ 910# 500# 300# 60 50 27 16 200# 500# 450# Q(n,α ) G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) Q(2β − ) Q(α ) S(2p) 455 Q(β − n) Q(ε p) A Elt. Z 88 Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru 32 33 34 35 36 37 38 39 40 41 42 43 44 6440# 8280# 9480 11240 12569 16004.62 19540.80 21158 21960 22390 24290 25650# ∗ 860# 590# 50 40 13 0.26 0.20 14 30 130 440 360# ∗ 31510# 28610# 26160# 23730 21547 19234.1 16130.1 13677 11370 9470 7460# 5670# 950# 510# 300# 21 11 1.1 1.9 10 100 40 220# 590# ∗ −9610# −8060# −7080# −6165 −7235 −7915.7 −6974 −5404 −4340 −3630# −3260# −2270# 23740# 640# 19440# 300# 15810 300# 11880 20 8230 15 1690.1 3.0 −4299 3 −8230 11 −10923 140 −13360# 200# −17050# 360# ∗ 570# ∗ 700# 500# 50 40 13 1.9 10 100 23 230# 400# ∗ ∗ −26930# −22040# −20400 −16041 −14501.3 −6990.3 −6032 −340 −641 4180# 4760# 7770# 7220# 510# 1910 300# 1910 40 −3166 18 −5799.9 1.1 −12974.3 1.9 −13022 10 −17510 100 −16450 22 −21650# 210# −23440# 460# ∗ 89 Ge As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh 32 33 34 35 36 37 38 39 40 41 42 43 44 45 5600# 1030# 7300# 590# 8760# 300# 10860 60 12160 50 13257 5 17471.36 0.18 20825.7 2.8 21663 9 22610 70 23450 220 24870# 360# 28320# 780# ∗ ∗ ∗ 29540# 27170# 24720 22434 20077.7 17681.9 14566 12210 10234 8240# 6400# 3110# ∗ −9510# 590# −8550# 300# −7670# 60 −6720 19 −5527 1.1 −7153.8 2.6 −7959.3 4 −6191 27 −5230 17 −4280 210# −3120# 550# −2840# 540# −2420# 25500# 710# 21430# 500# 17530# 210# 13140 60 9480 20 5989 2.2 −1340 2.6 −7051 5 −9865 30 −12810# 100 −15490# 300# −20190# 580# ∗ 600# ∗ 950# 510# 300# 60 50 6 4 27 16 200# 500# 490# ∗ ∗ −26350# −24570# −20140 −18270 −13806 −12381.7 −4236 −3640 1330 940# 5900# 7760# 9530# 1030# 8660# 510# 760# 3460# 300# 510# 3050 60 70 −2190 50 40 −1862 5 13 −9981.3 1.5 2.6 −12150 10 4 −16870 100 27 −16020 30 18 −20370# 200# 220# −20270# 450# 500# ∗ 490# ∗ 90 As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh 33 34 35 36 37 38 39 40 41 42 43 44 45 6310# 8190# 10030 11420 12895 14162.5 18331 21287 22730 23610 24640# 25800# ∗ 950# 400# 90 23 7 2.9 3 10 100 21 320# 500# ∗ 30370# 27910# 25670 23210 20827 18456.4 15423.5 12935 11122 9710 7190# 5080# 810# 510# 50 40 14 2.6 2.5 5 11 260 300# 540# −9520# 1130# 23170# −8510# 640# 19040# −7900# 310# 14740 −6854 24 10972 −6147 13 7126 −5100.9 2.9 2825.7 −6165.4 2.6 −3831 −6668.6 2.5 −8600 −5798 15 −11450 −4790 30 −14860# −3810 260 −17990# −3180# 530# ∗ −2430# 590# ∗ 810# 400# 80 19 7 2.2 4 6 240 300# 560# ∗ −29520# −24770# −23060# −18080 −16500 −12064 −9847.1 −2243 −2587 2150 2410# 7340# 990# 510# 300# 60 50 6 2.5 4 6 240 300# 540# 9670# 4570# 4040 −1329 −1224 −6311.2 −9689.9 −16188 −15724 −20400# −19770# −25720# ∗ 860# 410# 90 19 7 1.4 2.8 27 16 200# 560# 540# 91 As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd 33 34 35 36 37 38 39 40 41 42 43 44 45 46 5860# 7280# 9080 10730 12175 13579 14785.9 19164 22125 23343 24280# 25290# 27590# ∗ 1030# 590# 90 80 10 5 2.5 3 27 18 280# 770# 600# ∗ −8530# −7950# −7150 −6313 −5361 −4172.2 −5434.9 −6039 −5281 −4230 −3390# −2410# −2490# 910# 510# 70 60 8 4 3 11 200 580# 450# 810# ∗ ∗ −27350# −22670# −20410 −15964 −14272 −9237.8 −7434 −726 −620 4220# 4810# 10620# 11000# 6210# 800# 5390 410# −20 80 125 19 −5229 7 −5649.1 2.2 −13305 3 −14536 11 −19070 200 −18750# 580# −23510# 470# ∗ 640# ∗ 990# 510# 70 60 9 5 1.9 4 6 240 360# 770# ∗ 31220# 1030# 28940# 510# 26690# 300# 23750 60 21500 50 19210 6 16259.2 2.5 13509 3 11913 12 9910 200 8230# 580# 5840# 450# 2470# 760# 710# 310# 70 19 5 2.9 2.5 4 14 210 620# 500# 820# 24650# 20970# 16240 12330 8600 4245 287 −5686 −10650 −13550# −16880# −21260# ∗ ∗ 760# 510# 50 40 13 1.1 1.1 9 60 240 300# 630# 456 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(p) Q(4β − ) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z S(n) 92 As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd 33 34 35 36 37 38 39 40 41 42 43 44 45 46 2140# 1280# 4380# 780# 3140 90 5550 60 5098 10 7294 6 6540 9 8634.80 0.11 7887 3 12672 11 11020 200 13820# 660# 12330# 570# 16170# 760# 93 Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag 34 35 36 37 38 39 40 41 42 43 44 45 46 47 2140# 1000# 17080# 1210# 39370# 800# 6850# 1210# 5600# 1130# ∗ 4540# 300# 13690# 670# 31180# 300# 8000# 590# 7740# 500# −5950# 3300 100 14730 110 23100 100 8200 120 5470 130 −2440# 5917 10 11121 14 14591 8 9400 60 7216 20 −2350 5288 8 12602 10 6719 8 8372 11 4141 10 532 7481 14 8644 11 −621 11 10133 11 6582 11 785 6734.5 0.4 9593 9 −9850 90 9938.8 1.9 4234.5 1.8 4471.0 8831.3 2.0 6043.4 1.6 −18040# 400# 11392.9 1.6 6423.0 1.7 4925.6 8069.81 0.09 7644 4 −27100# 400# 10540 5 717 5 7610 12739 26 4086.5 1.0 −36820# 600# 9312 11 1429 7 4700 10930# 310# 5620 90 ∗ 9430 220 −1190 260 8550 13880# 570# 2050# 500# ∗ 10200# 710# 1000# 500# 7680# 12270# 640# 3630# 570# ∗ 10120# 570# −1620# 640# 11250# ∗ −1430# 780# ∗ 11330# 820# ∗ 12080# 94 Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag 34 35 36 37 38 39 40 41 42 43 44 45 46 47 4160# 1130# 2830# 500# 5200# 320# 4007 11 6827 10 6197 13 8221.1 1.9 7227.54 0.08 9678 4 8623 6 13370 90 11840# 600# 14720# 570# 14590# 780# 95 Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd 35 4170# 36 2970# 37 5372 38 4348 39 6930 40 6462.2 41 8488.7 42 7369.10 43 9934 44 8953 45 13470# 46 11870# 47 14870# 48 ∗ 640# 500# 22 10 10 0.9 2.0 0.10 7 14 470# 570# 640# ∗ 43850# 900# ∗ 7630# 1280# ∗ 17080# 1080# 36220# 600# 5510# 1000# 5360# 780# −7310# 1080# 13530# 510# 28230 50 10060# 400# 7480# 300# −3790# 510# 14570 70 19669 12 6550 80 4650 60 −3940# 300# 10750 60 11676 7 10909 19 6820 50 −550 60 12411 9 3937 5 7205 7 3709 6 −490 50 8457 10 −5879 28 11839 9 6260 9 2546 11 9397.8 1.8 −14050# 300# 8744.4 1.7 4111.9 1.7 3401.7 2.5 5846.9 1.8 −23090# 400# 13029.7 1.9 3285 4 6899.8 2.5 7462 5 −31310# 500# 6562 5 −1291 27 3710 5 4019 28 ∗ 11943 27 933 30 7360 40 5710# 360# ∗ 7510# 380# −1700# 360# 6240# 300# 1990# 710# ∗ 12660# 500# 1020# 640# 10130# 450# 3680# 640# ∗ 8430# 710# −2980# 670# 9660# 710# ∗ 14380# 15380# 11820 13512 9553 10333 6536.4 8490.4 4639 6254 2960# 4470# 890# 42040# 800# 4830# 1210# 4920# 1210# 900# 34540# 400# 9560# 720# 7400# 640# 420# 26120# 300# 6150# 300# 5230# 310# 100 17811 9 10943 14 7620 60 10 9569 7 6642 9 3769 11 10 1805 8 11230 8 6161 8 11 −4699 13 8257 9 3942.2 2.7 1.6 −13430# 450# 12800.2 1.6 6390.0 1.6 2.0 −22060# 400# 8749.4 2.5 3087 4 5 −30850# 500# 13362 5 2914 12 13 ∗ 7078 29 −1720 200 460# ∗ 12180# 540# 580# 740# 570# ∗ 7720# 570# −2380# 570# 640# ∗ 12910# 710# −1030# 760# 14390# 15520# 12000# 13852 9656 10598 6804.0 8632.0 4896 6585 3060 4500# 1040# 690# 950# 37310# 500# 7530# 570# 29620# 400# 7720# 300# 20928 21 8870 11 12591 8 8212 10 4810 9 9588 7 −2208 12 9276 1.9 −8440 150 11045.9 2.0 −17560# 400# 10211.6 5 −25920# 400# 11497 13 −36750# 600# 10864 150 ∗ 9640 600# ∗ 9730# 570# ∗ 10310# 780# ∗ 10800# 950# 7610# 500# 5410# 100 7795 11 4519 10 6525 11 4020 2.1 6536.0 2.0 3604.9 6 5652 12 349 170 930# 570# −1930# 570# 260# 840# ∗ ∗ −5300# −5160# −1400 −1880 1043 2025 5626.9 5127.1 8125 5283 8690# 7950# 11450# 860# 410# 80 20 12 2.2 2.3 4 6 90 470# 500# 780# 990# 590# 70 60 11 5 2.4 2.0 5 17 490# 710# 640# 780# −7330# 1030# 400# −3740# 720# 24 −3630 50 10 −685 14 8 −789 9 9 2856 4 2.1 3678 9 2.5 6392.8 2.0 6 6078 6 29 9002 12 330# 6240 150 570# 9900# 500# 640# 8910# 570# 14450# 780# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2p) Q(α ) A Elt. Z S(2n) 92 As Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd 33 34 35 36 37 38 39 40 41 42 43 44 45 46 5620# 1210# 6870# 720# 8100 90 9958 22 11553 9 13069 4 14468 9 15829.3 0.5 19935 4 22780 7 23870 240 25240# 420# 26290# 640# ∗ ∗ ∗ 29710# 27440# 24730 22476 20030 17090.2 14538.8 12616 10856 8820# 6730# 4770# ∗ −8940# 800# −7720# 400# −7330 80 −6460 19 −5600 11 −4629 2.2 −2957.1 2.5 −4574 4 −5607 26 −5290 300# −4130# 470# −3080# 590# −2280# 93 Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag 34 35 36 37 38 39 40 41 42 43 44 45 46 47 6520# 7680# 8850 11015 12582 14021 15369.3 16718 20742 23760 24750# 26210# 28440# ∗ 950# 310# 120 11 9 11 0.5 3 11 200 590# 570# 690# ∗ 30770# 28260# 25690 23350 21056 18050 15441.2 13491 11548 9640 7770# 5620# 2250# 94 Se Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag 34 35 36 37 38 39 40 41 42 43 44 45 46 47 6300# 1000# 7370# 400# 8500# 300# 9924 10 12115 8 13678 12 14955.6 2.0 16058.8 2.0 17747 4 21362 26 24300# 300# 25720# 600# 27000# 640# ∗ 95 Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd 35 36 37 38 39 40 41 42 43 44 45 46 47 48 7000# 8160# 9379 11175 13127 14683.4 15716.3 17047 18557 22330 25310# 26590# 29460# ∗ 590# 410# 22 11 13 2.0 2.0 4 6 90 430# 570# 720# Q(2β − ) 457 Q(β − n) Q(ε p) 25660# 920# 22140# 510# 18190 50 14083 40 10041 14 5586 9 1635 2.5 −1649 3 −7514 11 −12400# 100 −15570# 300# −18910# 450# ∗ 640# ∗ 910# 600# 50 12 11 4 9 4 26 300# 400# 590# ∗ ∗ −27010# −25740# −20550 −18850 −14357 −12098 −7392.3 −6204 409 510# 5340# 5870# 11340# 1030# 6790# 600# 910# 6660 80 500# 889 14 70 802 7 60 −4594 4 12 −4994 9 4 −9892.8 3.0 2.6 −12315 11 4 −18890 200 26 −18350# 580# 300# −23380# 500# 450# −24030# 690# 770# ∗ 950# 510# 70 60 13 4 2.4 4 5 90 450# 710# 720# −9450# 1210# 23300# −8330# 590# 19570# −7250# 310# 16070 −6470 60 11606 −5780 50 7032 −4936 12 2985 −3332.8 2.5 −314 −1931.4 2.3 −3606 −4360 5 −9540 −5377 27 −14430# −4690 90 −17570# −3750# 450# −22390# −2610# 640# ∗ −1550# 750# ∗ 810# 300# 100 13 8 11 4 4 90 400# 410# 720# ∗ −29410# −24660# −23330 −18589 −16740 −11538 −9684 −5639 −4443 2250 2470# 7420# 9290# 950# 610# 50 14 12 4 9 4 4 90 400# 500# 720# 7790# 7670# 2680 2179 −3343 −3841 −8740.0 −8475 −15940 −17270# −21980# −21750# ∗ ∗ 800# 300# 100 8 12 11 1.8 4 26 300# 410# 640# ∗ 31460# 29070# 26550 24633 22154 18977 16129 14533.8 12284 10341 8580# 6520# 4520# 990# 670# 50 14 9 4 9 2.0 5 13 450# 500# 640# ∗ −8780# −7640# −6360 −6295 −5412 −3750.1 −2302.0 −2067.4 −3923 −4826 −4160# −3470# −2510# 24340# 900# 20750# 500# 17700# 80 13795 20 8426 10 4016 2.9 1142.9 2.3 −2211 2.1 −5842 6 −11220# 14 −16220# 510# −19640# 500# ∗ 710# ∗ 860# 400# 300# 11 7 7 1.9 5 13 450# 400# 670# ∗ ∗ −27720# −22790# −22110 −17020 −14471 −9430 −8581.6 −4235 −3053 3380# 3630# 8580# 8170# 8140# 860# 3400# 300# 3460 100 −2689 10 −3303 8 −8129.9 11 −7632 2.0 −12878 5 −14960 13 −21470# 450# −21310# 410# −27640# 640# ∗ 860# 410# 300# 11 13 7 2.2 4 4 90 400# 600# 720# ∗ 29900# 27380# 25680 23167 20151 17137 15168.4 13387 11224 9320 7460# 5510# 1570# 900# 300# 100 10 8 11 2.0 5 12 150 410# 570# 720# −9470# 1030# 21950# −8130# 640# 19080# −6770 80 15353 −6230 60 10541 −5887 11 5575 −4437 5 2049.7 −2861.8 2.7 −765 −2242.0 2.0 −4258 −1809 6 −7680 −3671 16 −13300# −4780 250 −18240# −3920# 710# −23460# −3420# 570# ∗ −1720# 820# ∗ 500# 400# 22 8 7 1.8 5 12 150 400# 430# 720# ∗ −26520# −25340# −21260# −19943 −14106 −11722 −7729.6 −6941 −2329 −1470 5130# 5550# 12370# 900# 400# 300# 11 7 7 1.9 5 12 150 400# 600# 720# 9170# 4440# 4915 −840 −2012 −7364.6 −6443.5 −11625 −11520 −18580# −20060# −24920# ∗ ∗ 590# 400# 22 10 7 2.2 0.5 4 14 450# 430# 640# 458 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) Q(4β − ) Q(p,α ) Q(n,α ) Z 96 Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd 35 36 37 38 39 40 41 42 43 44 45 46 47 48 ∗ 16420# 12480# 14370 10519 11525 7235 9297.6 5399 7344 3519 5180 1710# 3290# 39720# 710# 32410# 400# 24379 30 15852 24 7471 7 629 4 −5924 0.5 −12560 5 −21250# 9 −29970# 14 ∗ 210 ∗ 570# ∗ 640# ∗ 700# 500# 30 27 24 8 13 150 400# 500# 8890# 1060# 6950# 1060# ∗ 5490# 640# 4880# 590# −6670# 10630# 300# 7660 100 −2530# 6325 29 4543 28 −3280 11205 24 6602 25 −83 7617 7 3644 11 288 12374 4 6377 4 4266 8284.8 2.0 3281.8 2.0 3972.9 13303 5 5850 6 7037 8793 9 2395 9 6378 13599 14 2450 90 9570 7420# 470# −2190# 430# 6680 12490# 570# −10# 570# 10250# 7910# 710# −4460# 780# 9240# 950# 300# 100 25 8 11 2.0 6 9 13 170 570# 640# 97 Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In 35 4090# 1060# ∗ 36 2960# 710# 16580# 37 5200 30 12620# 38 3920 30 14850 39 5982 26 10608 40 5575.2 0.4 11889 41 8073 4 7451.8 42 6821.26 0.21 9226 43 9474 7 5719 44 8111.5 2.8 7584 45 10980 40 3810 46 9640 340 5410 47 14320# 510# 1880 48 12570# 640# 3320# 49 ∗ −1810# 41610# 860# 35030# 500# 27250 30 18752 29 10962 23 3166 1.8 −3020 3 −9740 4 −16400 10 −25510# 40 −35590# 300 ∗ 350 ∗ 570# ∗ 780# ∗ 800# 500# 30 19 12 9 40 300 320 400# 600# ∗ 6700# 8390# 7777 9570 8971 10762.9 9952.3 11198 10615 11570 11250 10040# 10210# 10400# ∗ −5470# −4910# −2000# −2058 1540 2389 5372.8 4791 7944 7210 10420 7770# 11390# 11940# 950# 400# 300# 14 8 7 1.9 5 9 40 300 550# 570# 780# 98 Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In 36 37 38 39 40 41 42 43 44 45 46 47 48 49 4950# 3940 5930 4281 6412 5994 8642.60 7279 10184 8660 11570 10310 15100# 14960# 780# 50 30 27 20 5 0.07 5 10 40 300 330 410# 630# 17430# 1000# 36490# 600# 4540# 13600# 510# 29310 50 9520# 15580 40 21466 26 5290 10970 30 13960 25 11180 12318 23 6938 21 7770 7871 5 −354 13 12625 9795.1 1.8 −6812 22 8203 6176 3 −13370 70 13074 8293 8 −20590 80 8304 4352 14 −29280# 200# 13608 6000 40 ∗ 9090 2550 310 ∗ 13880 4100 330 ∗ 7650# 580# 450# ∗ 12920# 99 Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 2770# 4730 3610 5800 4553 6870 5925.43 8967 7464 10471 8959 11770 10290# 15450# ∗ 840# 130 80 30 28 14 0.15 3 7 14 25 160 220# 450# ∗ 13370# 15250 10840 12590 8329 9726 6500.4 8478 4639 6302 2750 4080# 930# 590# 2800# 5060# 3442 5893 5211 7856.3 6893 9154.32 7872 10694 9410 14150# 12540# 17480# S(p) Q(d,α ) A Elt. 860# 640# 29 28 24 2.2 3 0.05 7 10 150 430# 570# 780# 610# 90 40 30 24 5 1.0 4 9 19 150 220# 410# 630# 38270# 31450 23780 17122 9849 3247 −3778 −10570 −17760# −24300# −34990# ∗ ∗ ∗ ∗ 600# 130 80 24 20 15 15 150 210# 400# 600# 7020# 1130# 710# 4750# 640# 400# 7650# 300# 27 4629 21 14 7447 14 7 4266 7 2.2 6525.2 2.3 0.5 3688.1 2.0 4 6054 4 10 2906 9 40 4840 40 340 0# 540# 510# 400# 510# 570# −2440# 640# 840# ∗ 920# 510# 40 40 30 5 3 3 8 14 22 160 410# 540# 3970# 6680# 4070 7513 4784 6993 3534.2 6144 2656 5139 1900 1950# −2670# −2340# 780# ∗ 400# −4670# 30 −4960# 26 −970 21 −524 5 3325 0.5 3192.4 3 6001 8 5129 17 8488 150 7796 410# 10930 410# 8170# 630# 11850# 510# 400# 30 21 9 1.8 3 6 13 22 160 410# 450# 5870# 1000# 7750# 520# 6880 80 9300 30 9200 23 11330 13 10350.6 1.8 10928.1 1.0 10314 4 11249 11 11110 40 11750 340 11680# 380# 10040# 570# 10520# 840# 4000# 7020# 3900 7600 5440 7980 4502 6331.4 3064 5362 2356 4340 −420# −310# ∗ 920# ∗ 520# −6600# 80 −3510# 40 −3330 30 820 13 1666 3 5123.4 1.0 3927 5 6819.9 10 5889 18 9531 210 8570 450# 12020# 640# 8940# 14550# 710# 510# 40 30 27 2.2 3 1.6 9 15 150 250# 570# 780# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) S(2p) 96 Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd 35 36 37 38 39 40 41 42 43 44 45 46 47 48 6970# 8030# 8810 10241 12141 14318.6 15382 16523.42 17806 19647 22880# 26020# 27410# ∗ 810# 590# 30 28 24 2.3 4 0.11 7 10 450# 430# 640# ∗ 30810# 28000# 26370# 24371 21180 17833 16101.6 14031 12240 10103 8240 6210# 4330# 97 Br Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 6890# 8020# 8650 9814 11193 13431.5 14966.4 15975.58 17346 18805 20390 23790# 26860# 30050# ∗ 950# 640# 30 20 13 2.2 1.8 0.22 7 10 150 500# 510# 720# ∗ ∗ 29030# 27330# 24982 22408 18977 16460.6 15016 12983 11150 8930 7060 5030# 1480# 500# 400# 23 8 7 1.8 4 8 40 300 350 570# 720# 98 Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In 36 37 38 39 40 41 42 43 44 45 46 47 48 49 7910# 9140 9850 10260 11987 14067 15463.86 16753 18295 19638 21210 24630# 27670# ∗ 780# 60 40 30 20 6 0.22 6 10 17 150 410# 510# ∗ 30170# 28190# 25820 22930 19760 17246.9 15402 14012 11936 9806 7960 5980 3900# 700# 500# 40 30 24 2.2 5 6 13 20 70 170 450# 99 Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 7720# 8670 9540 10086 10964 12864 14568.03 16246 17647 19130 20530 22080 25390# 30410# ∗ 780# 130 80 27 20 13 0.16 4 9 40 300 360 450# 720# ∗ 30810# 28850# 26420 23558 20647 17597.1 16295.4 14654.5 12932 10653 8750 6630# 5030# 1170# 810# 510# 40 28 18 2.2 2.0 1.6 8 15 150 370# 510# 720# 950# 400# 300# 25 8 8 1.9 6 8 13 150 600# 640# Q(α ) Q(2β − ) −10130# 1140# 22600# −8810# 780# 19910# −7070 60 17120 −6579 30 12504 −6000 24 7257 −5000 4 3347.7 −3215 10 214 −2761.5 2.0 −2718 −1794 6 −6138 −1692 9 −9840 −3170 29 −15110# −4250# 330# −20130# −3640# 570# ∗ −3030# 710# ∗ 459 Q(β − n) Q(ε p) 700# 500# 30 27 24 2.2 6 8 14 150 400# 530# ∗ ∗ −24610# −24190# −19782 −17615 −11686 −10421.7 −6324 −5654 −952 −70 6480# 6760# 9340# 4750# 500# 5821 400# 197 29 −760 8 −6732.2 8 −5968 1.8 −10845 5 −10439 8 −15800 14 −17600# 150 −24200# 430# −25950# 640# ∗ 810# 500# 30 28 23 2.2 3 5 13 150 400# 430# 720# 23710# 950# 20870# 300# 17901 100 14159 14 9348 8 4593.8 11 1614 2.0 −1428 5 −4630 9 −8310 40 −11770 310 −17200# 510# −23820# 570# ∗ 840# ∗ 800# 500# 30 19 11 2.2 4 8 40 300 320 500# 680# ∗ ∗ −27020# −23050# −22320 −17297 −14548 −9386.6 −8905 −4611 −4060 980 1570 8340# 10280# 10310# 5240# 700# 6510 500# 1487 30 1114 27 −5414 23 −4886.5 2.2 −9795 5 −9219 8 −14504 40 −14430 300 −21300# 320 −22790# 430# ∗ 720# ∗ 950# 500# 40 29 11 4 1.8 5 9 10 150 500# 600# −10420# 1000# 21850# −8840# 400# 18250 −7930# 300# 14641 −6339 26 11061 −4871 21 6825 −3605 9 2899 −3269.8 1.9 113 −2488 4 −3253 −2240 6 −6925 −1446 13 −10110 −1157 22 −13670 −2550# 450# −19160# −3710# 410# ∗ −3020# 540# ∗ 600# 50 18 25 20 6 6 12 22 70 70 210# ∗ −26860# −26020# −21400 −19788 −14560 −12454.0 −8111 −7973 −3244 −2477 2240 2880 9630# 800# 500# 40 27 12 2.2 4 6 13 20 80 310 380# 5490# 6500 1541 2408 −3753 −4059 −8963 −8387 −13710 −13450 −18550 −20530# −28700# ∗ 600# 50 28 24 20 5 4 9 40 300 320 410# 600# 600# 120 80 20 20 13 1.6 7 15 150 210# 430# 630# ∗ ∗ −24680# −23270 −18410 −17149 −11968 −11084 −6794.2 −6436 −1252 −870 4160# 4500# 13140# 6660# 7700 600# 2210 60 3010 30 −2311 28 −2287 20 −7609 6 −7170 1.6 −12513 8 −12346 16 −17200 150 −17200 210# −24030# 410# ∗ 600# ∗ 600# 130 80 30 21 13 3 7 12 22 70 170 280# ∗ −9630# −7730# −7200 −6065 −5287 −3807 −2848.3 −2437 −1734 −1410 −2960 −4070# −3330# −2650# ∗ −9400# −8570# −6770 −5077 −3545 −2733.0 −2966.2 −2334.4 −1982 −1163 −840 −2130# −3600# −2930# 22690# 520# 19320 410# 15580 30 12126 21 8197 15 4996 1.8 1651.1 1.1 −1749 1.6 −5429 9 −8820 18 −12340# 210 −15480# 450# −22650# 570# ∗ 840# ∗ 460 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 100 Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 4770# 3890# 6100 5160 6910 5684 8290 6764.4 9673.32 8081 11110 9460 12470# 10970# 17650# 780# 320# 150 80 40 28 6 1.0 0.03 19 18 170 230# 470# 920# ∗ 14490# 16630 12400 13690 9460 11146 7339.4 9184.8 5256 6941 3250 4780 1610# 2800# 670# 180 110 40 30 12 1.4 1.4 18 13 80 180 320# 810# 40410# 33240# 25970 18720 12610 5640 −958 −7870 −14970 −21410 −28450 ∗ ∗ ∗ ∗ 500# 300# 130 80 40 30 13 80 100 250 710 ∗ 8810# 4710 10060 6570 12060 8055 12806.3 7920 13351 8659 13860 9520 14170 7830# 670# 140 80 40 30 8 1.4 4 19 16 80 120 260 730# 3320# 6080# 3000 6360 4520 7871 4285 6388.3 2865 5392 2230 4510 1430 1300# −4910# 950# 590# 130 80 40 26 6 1.4 4 20 40 310 340 470# 920# ∗ −6400# −6660# −3290 −2170 1965 2409 5235.8 3967.9 7282 6532 10090 9200 12300 9470# 860# 520# 80 40 28 6 2.3 1.6 19 13 90 320 410 810# Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn 37 38 39 40 41 42 43 44 45 46 47 48 49 50 4970# 3260 5690 4920 7070 5398.24 8391 6802.05 9895 8273 11150 9570 12520# 10850# 340# 180 120 50 30 0.07 24 0.24 25 21 130 180 390# 770# 14690# 16000# 11980 13450 9630 10861 7441 9222.5 5478 7133 3290 4890 1650# 2680# 530# 320# 160 80 40 25 25 1.7 17 25 100 170 310# 390# 35350 28100 21420 14490 8466 1917 −5110 −12200 −18790# −25870# ∗ ∗ ∗ ∗ 170 120 100 30 26 19 110 150 300# 300# 6610# 6180 7980 7450 9537 9527 10341 10084.2 10920 10857 11670 11720 11950# 12430# 620# 180 120 40 26 12 24 1.4 17 19 110 210 360# 500# 6060# 3680 6600 3870 7209 4881 6640 3342 5681 2611 4940 2180 3880# −800# 620# 130 100 40 27 8 24 4 18 21 110 170 310# 360# ∗ −4970# −5040 −1170 −830 3422 2839 5808.4 4666 8443 7600 11200 10090# 13720# 610# 110 40 30 21 25 1.6 18 19 110 150 310# 310# Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn 37 38 39 40 41 42 43 44 45 46 47 48 49 50 2790# 5740 5050 6360 5480 8118 6301 9219.64 7438 10568 9110 12000 10170# 13440# 530# 170 130 60 40 20 26 0.05 18 17 110 150 320# 330# ∗ 16770 13770 14120 10180 11904 8343 10051 6114 7806 4130 5740 2250 3610# 200 150 110 50 27 10 24 5 17 30 110 190 330# 38040# 30480 22670 17360 10430 4368 −2301 −9420 −16070 −23000 ∗ ∗ ∗ ∗ 510# 110 90 50 40 21 29 29 110 130 8600# 4330# 9040 6260 10970 7090 12329 7629.0 13155 8370 13670 9180 14250 9950 710# 320# 150 90 50 30 10 1.7 5 18 30 80 150 280 6050# 2670 5160 3320 6290 3634 6264 3089.2 5706 2513 4790 1940 4010# 1210# 780# 170 120 60 40 23 9 1.4 5 7 30 150 230# 420# ∗ −7940# −5370 −3910 −500 −143 3408 2514.2 6195 5338.3 8956 8160 11690 10570# 610# 150 90 50 28 16 1.6 5 2.4 29 30 190 240# Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb 38 39 40 41 42 43 44 45 46 47 48 49 50 51 2550# 5110# 4700 7040 5360 8103 6232.05 9318 7625.4 10600 9040 11960 10120# ∗ 520# 310# 120 80 60 13 0.15 5 0.8 30 30 110 330# 16530# 13150# 13770 10860 11790 8329 9982 6213.1 7993 4155 5670 2210 3550# −1460# 710# 320# 140 80 70 23 9 2.1 5 17 30 40 320# 330# 33290# 25660# 18890 12710 6630 194 −6609 −13423 −20510# −28610# ∗ ∗ ∗ ∗ 510# 300# 110 70 60 19 15 25 300# 300# 6760# 7180# 7250 8850 8810 9625 9788 10638.3 10640 11347 11290 11860 12350# 14090# 530# 320# 140 70 60 11 24 2.1 17 24 110 150 420# 420# 4010# 6150# 3790 6150 3960 6451 3621.5 6060.9 2969 5299 2360 4510 2060# 5470# 590# 320# 130 80 70 11 1.8 2.1 18 20 80 100 390# 770# −5710# −6590# −2510 −2380 1400 989 4572 3640.4 7386.3 6439 10223 9200 12920# 13640# 710# 420# 170 100 70 27 6 2.7 2.3 25 19 80 310# 390# 102 103 S(p) Q(d,α ) Elt. 101 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(α ) Q(2β − ) 461 Q(β − n) Q(ε p) A Elt. Z 100 Kr Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 7550# 8620# 9720 10970 11460 12553 14215 15731 17137 18552 20069 21230 22760 26420# ∗ 780# 300# 130 80 40 26 6 4 7 22 24 100 120 320# ∗ ∗ 30000# 27650 24540 22050 19475 17066 15685.2 13734 11580 9550 7530 5690 3730 ∗ −10490# 610# −9610# 90 −8490 40 −6090 40 −4020 21 −3166 6 −2837 1.6 −2853.4 18 −2192 13 −1579 80 −890 100 −450 260 −2020# 710 −3100# 24020# 760# 20600# 520# 16390 80 12650 50 9580 30 6077 6 3035 3 −432 1.6 −3993 19 −7440 13 −10980 80 −13980 180 −17470 470# ∗ 870# ∗ 520# 310# 120 70 40 26 6 18 11 80 90 240 700 ∗ ∗ −28010# −23700 −21710 −17030 −15705 −10978 −10542.1 −5550 −4898 140 650 5300 5780# 6610# 7420# 610# 1910 150 2400 90 −2350 30 −2045 19 −6932 13 −6470.6 1.6 −11716 18 −11468 11 −16540 80 −16370# 100 −21050# 290 −25040# 740# ∗ 520# 310# 130 80 40 26 6 1.7 7 24 150 220# 410# 650# 101 Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn 37 38 39 40 41 42 43 44 45 46 47 48 49 50 8860 9360 10850 11830 12758 13688 15155 16475.38 17976 19383 20610 22040# 23480# 28500# 210 150 100 40 22 6 24 0.24 18 23 180 260# 500# 670# ∗ 30490# 28610 25850 23319 20321 18587 16561.8 14663 12389 10230 8140 6430# 4290# 610# 160 90 30 19 27 1.6 17 18 100 150 330# 360# −11370# −9920# −8980 −7090 −5109 −2990 −3155 −2834.2 −2613 −1741 −1060 −370 −220# −1380# 820# 21320 520# 18050 100 14030 40 10050 22 7390 6 4438 24 1072 1.6 −2522 18 −6180 20 −9680 110 −12610# 340 −16190# 440# ∗ 500# ∗ 140 120 90 30 30 6 29 18 100 150 320# 330# ∗ −26500# −25510# −20530 −18940 −14200 −13690 −9054 −8681 −3498 −2930 2190 2250# 7400# 520# 310# 130 80 40 40 6 17 18 110 150 310# 310# 8550 3820 3620 −1590 −829 −5566 −5188 −10437 −10253 −15350 −15050 −19650 −19910# ∗ 210 150 100 40 18 6 24 18 20 80 140 290 770# 102 Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn 37 38 39 40 41 42 43 44 45 46 47 48 49 50 7760# 9000 10740 11280 12550 13516 14692 16021.69 17333 18841 20260 21570 22680 24290 590# 170 120 60 50 20 9 0.24 19 11 80 100 270 720 ∗ 31460# 29780# 26100 23630 21530 19204 17492 15337 13284.0 11260 9030 7140 5260 ∗ 520# −10710# 310# −10100 140 −7520 90 −6300 40 −4695 27 −3462 6 −3411.2 5 −2772 2.4 −2126 30 −1510 30 −800 140 −70 160 280 23580# 610# 18670 100 14460 60 11820 50 8220 29 5541 11 2209 1.6 −1173.0 6 −4510 7 −8247 30 −11560 40 −14750 130 ∗ 150 ∗ 510# 100 80 50 40 21 10 2.4 28 29 110 130 ∗ ∗ −25580 −23620 −18720 −17390 −12912 −12876 −7728 −7264.3 −2150 −1540 3230 3530 9020# 3760 190 3490 130 −870 100 −910 40 −5290 21 −4687 6 −9761 24 −9418 2.4 −14770 30 −14590 30 −19140# 150 −19220# 200 ∗ 520# 150 90 50 40 30 9 17 18 100 150 300# 320# 103 Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb 38 39 40 41 42 43 44 45 46 47 48 49 50 51 8290# 10170# 11060 12520 13480 14404 15451.69 16757 18194 19710 21040 22130# 23560# ∗ 520# 310# 110 70 60 26 0.16 17 17 110 150 300# 420# ∗ 29920# 27540 24980 21970 20233 18325 16264 14107.3 11961 9799 7950 5810# 2140# −10480# 340# −10480# 170 −8610 120 −7540 70 −5500 21 −4695 6 −3717.9 24 −3124.0 2.2 −2287.0 24 −1642 23 −887 110 −270 330# 450# 420# 2670# 780# 20820# 320# 16380# 130 12480 70 9280 60 6410 17 3425 1.6 220.3 2.5 −3231 2.3 −6830 18 −10192 22 −13680# 150 −18420# 360# ∗ 500# ∗ 520# 310# 90 70 60 10 2.2 17 15 23 300# 300# ∗ −27910# −22580 −20710 −16390 −15540 −10990 −10745 −5670.0 −5305 −13 380 5420# 7240# 590# 160 110 80 40 21 10 2.2 17 16 40 300# 320# 6270# 4740# −100 170 −4350 −3570 −8555 −8168.4 −13286 −13180 −18010 −17740 ∗ ∗ 510# 300# 120 70 60 10 5 1.1 28 30 110 130 462 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 104 Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb 38 39 40 41 42 43 44 45 46 47 48 49 50 51 4920# 4050# 6040# 4980 7550 5960 8901.4 6998.96 9982 8391 11397 9580 12690# 11070# 860# 500# 420# 120 80 50 2.8 0.08 5 18 17 90 320# 470# ∗ 14650# 14690# 11140 12300 8930 10781 6980.0 8657 4921 6472 2750 4280 −510# 640# 500# 150 90 80 9 2.1 5 6 18 90 110 210# 35920# 27580# 21750# 14730 9060 2630 −4114 −10840 −17800 −25940# ∗ ∗ ∗ ∗ 700# 400# 400# 100 50 50 10 80 100 360# 4620# 8880# 6260# 10230 6730 11780 7188 12859.0 8096 13524 9001 14280 9830 16460# 860# 420# 410# 120 70 50 9 2.1 6 6 30 90 150 390# 4060# 5360# 3440# 6100 3480 5890 3111 5863.9 2882 5181 2110 4510 1890# 5250# 720# 420# 410# 110 60 50 24 2.1 18 19 100 170 320# 470# ∗ −5670# −5290# −1670 −1230 2100 1069 5032 4206 7943 7100 10760 9800 15080# 430# 420# 140 60 50 6 24 4 18 20 130 180 470# Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 2250# 4510# 4090# 6700 5080 7870 5910.10 8967 7094.1 10028 8427 11450 9740 12720# ∗ 990# 640# 570# 140 90 70 0.11 5 0.7 11 14 90 130 380# ∗ 14240# 14740# 11800# 12400 9250 10730 7046 8752 4967 6508 2795 4440 −483 610# 860# 570# 410# 130 80 50 3 5 11 12 19 120 15 620# 38760# 30930# 23560# 16990 11080 4780 −1598 −8365 −15150 −23250 −31830# ∗ ∗ ∗ ∗ 700# 510# 400# 100 70 60 12 17 80 110 500# ∗ 6910# 7280# 8230 8690 9270 9380 10124 10320 11122 11172 11879 12050 13870# 14390# 710# 500# 150 100 80 9 4 5 11 20 23 80 320# 590# 4590# 6590# 4390# 5750 3870 6130 3502 6116 3226 5721 2800 5060 2310 5970 ∗ 860# 520# 410# 110 80 60 9 4 6 11 30 30 140 170 ∗ −7400# −3640# −3310 50 −290 3276 2366 6332 5353 9241 8430 12060 12540 18080# 710# 420# 130 90 70 21 10 4 12 12 30 90 150 520# Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te 39 40 41 42 43 44 45 46 47 48 49 50 51 52 3490# 5410# 4310# 6990 5560 8466 6587 9560.97 7941 10874 9197 12230 10580# 13790# 860# 640# 220# 70 60 7 7 0.28 11 12 21 90 330# 520# 15480# 15640# 12020# 12690 9730 11320 7723 9345.8 5813.5 7353 3565 5230 360# 1680 990# 710# 450# 100 70 60 7 2.5 2.8 12 17 50 320# 170 33010# 26620# 19270# 13647 7162 810 −5755 −12480 −20610# −28920 ∗ ∗ ∗ ∗ 700# 500# 200# 17 13 10 14 50 310# 130 8350# 5920# 9960# 6680 11260 6870 12438 7758 13163.5 8690 14079 9390 15970# 11670# 990# 640# 450# 110 60 50 7 5 2.9 8 13 100 330# 390# 5650# 4100# 6140# 3930 5940 3139 5761 2984 5406 2523 4907 2040 5510# 2830# 860# 590# 220# 70 60 12 8 5 5 16 19 60 430# 330# ∗ −6500# −2510# −2240 1190 170 3882 3003 6731 5993 9831 8870 13920# 14410# 710# 360# 110 70 60 12 4 5 7 20 50 310# 330# Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te 39 40 41 42 43 44 45 46 47 48 49 50 51 52 4020# 3560# 5890# 4760 7400 5670 8573 6536.4 9536 7924 11024 9220 12400# 10400# 860# 590# 450# 160 150 120 14 0.5 4 8 17 90 430# 330# ∗ 15710# 12510# 13140# 10140 11440 7830 9295 5788.2 7336 3716 5260 520# 1500# 760# 640# 250# 150 120 14 6 2.7 5 13 80 300# 430# 36390# 28730# 21950# 15420 9300 3060 −3304 −9790 −17750# −26440# ∗ ∗ ∗ ∗ 530# 320# 400# 160 150 120 16 80 300# 300# 6580# 6870# 8160# 8620 8950 9080 9775 10188.9 10721.9 10794 11481 11620 13320# 13990# 860# 590# 570# 190 170 140 12 2.6 2.8 11 16 90 310# 320# 6550# 4590# 6290# 4140 6090 3430 6090 3446 5852.4 2991 5279 2390 5800# 3500# 860# 500# 570# 190 160 130 12 5 2.8 6 15 120 320# 210# ∗ −5140# −4360# −960# −1230 2050 1270 5368 4194 8052 7198 11040 11100# 16700# 760# 570# 430# 180 130 50 4 5 5 12 80 310# 320# 106 107 S(p) Q(d,α ) Elt. 105 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z 104 Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb 38 39 40 41 42 43 44 45 46 47 48 49 50 51 7470# 9160# 10740# 12020 12910 14060 15133.5 16317 17608 18989 20440 21540 22800 ∗ 710# 410# 400# 110 60 50 2.8 5 5 29 30 140 170 ∗ 31180# 27840# 24910 23160 20720 19109 16962 14870 12914 10628 8420 6490 3050# Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 7170# 8560# 10130# 11680 12630 13830 14811.5 15966 17076 18419 19823 21020 22430# 23780# ∗ 860# 590# 420# 120 90 60 2.8 5 5 20 19 30 310# 320# Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te 39 40 41 42 43 44 45 46 47 48 49 50 51 52 8000# 9500# 11010# 12070 13430 14376 15554 16655.1 17969 19300 20640 21980 23300# ∗ Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te 39 40 41 42 43 44 45 46 47 48 49 50 51 52 7510# 8970# 10210# 11750 12960 14140 15160 16097.4 17476 18797 20221 21460 22980# 24190# 105 106 107 S(2n) S(2p) Q(2β − ) Q(α ) 463 Q(β − n) Q(ε p) 640# 420# 140 70 60 21 10 4 7 10 90 110 380# −10630# −10640# −8550# −7350 −6150 −4970 −4329 −3358.5 −2596 −1952 −1173 −380 230 2570# 860# 500# 420# 130 60 50 6 2.7 4 19 15 110 140 440# 21940# 17310# 13990# 10260 7760 4460 1301 −1838 −5415 −9000 −12380 −16930# ∗ ∗ 810# 410# 400# 90 50 50 4 6 10 80 100 370# ∗ ∗ −26080# −20580# −19250 −14460 −14530 −9642 −9420 −4378 −3785 1400 1770 8130# ∗ ∗ 29390# 26500# 23540 21550 19660 17827 15732 13624 11429 9268 7190 3800 100# 640# 310# 130 90 60 10 4 11 12 24 80 110 590# ∗ −10180# −9380# −8370 −6310 −5770 −4841 −3935 −2888 −2085 −1327 −680 60 2370# 4640# 530# 420# 140 80 60 6 24 4 20 21 110 170 320# 590# 23780# 19500# 14970# 11430 8590 5560 2485 −778 −4083 −7587 −11070 −15660 −20760# ∗ ∗ 810# 510# 410# 80 70 60 4 11 11 14 80 110 510# 810# 640# 220# 60 50 7 8 0.8 5 7 90 120 480# ∗ 29870# 26760# 24490# 22130 20570 18450 16392 14565 12320 10073 8030 4800# 1200 860# 450# 400# 110 50 50 4 5 7 14 50 320# 170 −10880# −9050# −7630# −6940 −5850 −5190 −4221 −3229 −2587 −1632 −770 −170 1950# 4290 860# 520# 210# 50 40 22 12 4 7 7 30 60 330# 9 20330# 16560# 12680# 10067 6586 3580 576 −2770 −6331 −9710 −14280# −19210 ∗ ∗ 710# 500# 410# 180 160 120 12 0.6 11 12 20 110 320# 590# ∗ 31190# 28140# 25160# 22830 21160 19150 17018 15134 13150 11070 8820 5750# 1860# 760# 640# 430# 180 140 60 4 4 5 15 80 300# 310# ∗ −10060# −8410# −7000 −6210 −5500 −4691 −3534 −2804 −1931 −1193 −350 1520# 4008 590# 500# 190 160 140 16 4 5 6 20 80 300# 5 22200# 17750# 14190# 10980 7760 4440 1538 −1383 −4842 −8410 −12910# −18040# ∗ ∗ 640# 320# 120 80 60 10 4 6 10 90 100 360# 6460# 5390# 910# 550 −3800 −3300 −8138 −7542.0 −12670 −12533 −17447 −17200# −23490# ∗ 760# 420# 410# 120 50 50 4 0.8 17 16 26 310# 320# ∗ ∗ −25250# −23230# −18290# −17350 −12890 −12650 −7613 −7407 −2229 −1659 3420 5000 11800# 810# 410# 410# 120 50 50 4 11 11 18 80 60 510# 8260# 6920# 1790# 1400 −2920 −2270 −7049 −6526.9 −11373 −11165 −16290 −15960 −22160# ∗ ∗ 810# 640# 410# 110 80 60 4 2.6 4 14 90 100 370# 730# 500# 200# 16 11 6 7 7 13 50 310# 140 ∗ −28410# −23030# −21180# −16210 −16270 −11360 −11264 −6381 −6009 −827 −380 5860# 7760 860# 540# 400# 100 70 60 4 4 7 16 50 310# 150 7520# 3080# 2170# −2040 −1919 −6548 −6020 −10906 −10679 −15723 −15420 −21680 −21900# ∗ 810# 510# 210# 60 13 7 6 11 12 18 80 120 590# 640# 340# 430# 100 150 120 13 5 11 80 300# 310# ∗ ∗ −25430# −20530# −19300# −14960 −14377 −9334 −9329 −4371 −3911 1270 2660# 9600# 810# 530# 250# 120 18 6 7 5 11 80 300# 300# 8910# 3830# 3270# −1240 −850 −5630 −5032 −9501.6 −9341 −14450 −14210 −20320# −20510# ∗ 710# 360# 400# 160 150 120 12 2.9 7 14 50 320# 330# 464 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 108 Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 3100# 5080# 3850# 6430# 4920 7820 6230 9228 7271.41 10339 8627 11540 9930# 13250# ∗ 950# 670# 500# 250# 200 170 110 5 0.17 8 15 80 360# 320# ∗ 16770# 12790# 13680# 10300 11860 8390 9950 6523.2 8140 4420 5770 1220# 2360# −600# 780# 420# 450# 210 190 160 12 2.7 7 11 23 220# 320# 200# 38210# 31470# 24320# 18220# 11650 5580 −900 −7483 −15090# −23530 −31460# ∗ ∗ ∗ ∗ 810# 610# 320# 200# 130 120 110 20 210# 100 360# ∗ 5280# 9710# 6500# 11010 6810 12010 7548 13011.4 8396 13728 9276 15630# 11320# 16270# 920# 590# 280# 130 120 110 8 2.7 7 11 23 210# 330# 380# 5700# 4020# 6530# 4410# 6250 3480 5770 3185 5675.0 2680 5079 2304 5620# 2962 4710# 1060# 780# 500# 220# 150 130 110 5 2.8 12 15 26 220# 16 620# ∗ −7970# −3700# −3290# 550 −690 2910 2050 5890 4807 8599 7936 12620# 13190 16810# 920# 590# 450# 160 140 120 5 4 7 15 23 210# 130 370# Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I 40 41 42 43 44 45 46 47 48 49 50 51 52 53 3150# 5470# 4010# 6650 5250 8060 6153.60 9192 7327 10444 8669 11820# 9960 13030# 780# 590# 360# 160 130 110 0.15 5 6 10 22 210# 120 370# 16830# 13190# 13840# 10520# 12190 8630 9880 6487.3 8196 4525 5813 1507 2390# −819.5 950# 780# 420# 220# 140 120 110 2.0 6 5 14 27 210# 1.9 33570# 26910# 20360# 14190 7660 1478 −4967 −12464 −20900 −28880 ∗ ∗ ∗ ∗ 510# 500# 300# 100 70 13 10 19 60 100 6150# 7810# 8380# 9120 8960 9620 9968 10356 10604 11207 11631 13030 13750# 13640# 710# 590# 500# 190 160 120 12 5 6 8 15 90 310# 320# 4350# 6470# 4720# 6580 3790 6175 3619 6044 3293 5508 2831 6030 3580# 5470 860# 710# 360# 100 70 14 8 5 6 8 16 50 320# 170 ∗ −5680# −1900# −1790# 1050 411 4362 3285 7040 6095 10140 9994 15460 14360# 860# 590# 220# 70 18 8 8 6 8 12 23 80 330# Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 4690# 3590# 6280# 4500 7200 5840 8814 6809.20 9916 8058 11276 9360# 12740 10780# ∗ 950# 710# 500# 120 80 50 11 0.10 3 13 17 200# 80 330# ∗ 13620# 14650# 11010# 12740 9210 10627 7142.9 8919.3 5256 6644 2190# 3310 −0# 1580 710# 640# 310# 110 80 5 2.0 1.6 12 15 200# 60 320# 170 36080# 29160# 22890# 16500 10370 3700 −2505 −9920# −18080 −26150# −33940 ∗ ∗ ∗ ∗ 800# 510# 400# 80 50 50 18 200# 50 310# 130 4550# 9300# 5950# 11050# 6680 11610 7380 12774.6 7960 13488 8983 15210# 10940# 16110# 11460# 1130# 780# 500# 210# 140 130 110 2.0 5 13 17 200# 210# 330# 380# 3680# 6440# 4320# 6850 3990 6010 3378 5771 2913 5374 2580 5900# 3240# 5080# ∗ 950# 590# 570# 180 160 130 16 5 5 13 18 220# 300# 430# ∗ −5250# −4620# −400# −1390 1970 1220 5049 3661 7573 6787 11660# 11950 15980# 14280# 710# 500# 410# 170 160 120 12 5 13 15 200# 90 430# 330# Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe 41 42 43 44 45 46 47 48 49 50 51 52 53 54 5080# 3710# 6330 4760 7650 5726.3 8831.5 6975.85 9992 8172 11420# 9280 12700# 10560# 710# 570# 130 90 60 0.4 2.2 0.19 12 15 200# 90 430# 330# 14010# 14770# 11050# 12990 9660 10520 7161 9085.9 5332 6759 2330 3230# −40# 1370# 950# 640# 420# 110 60 50 11 1.6 5 13 30 210# 310# 430# 31730# 24910# 19000 12590 6039 −59 −7333 −15770 −23450# −31550# ∗ ∗ ∗ ∗ 500# 400# 110 70 30 13 28 70 300# 300# 7370# 7710# 8740# 8580 9200 9717 10096.7 10176.0 10824 11255 12462 13490 13380# 13930# 710# 640# 320# 120 70 5 2.9 1.6 5 8 30 70 310# 320# 6440# 4460# 6950# 4150 6180 3880 6167.6 3208 5721 3035 6020 3890# 5640# 3120# 780# 500# 220# 150 120 110 2.9 5 8 12 30 220# 320# 210# −7240# −3250# −2870# 280# −760 3320 2440 5913.2 4853 8954 8874 14200 13210# 16970# 950# 720# 320# 210# 130 120 110 2.5 6 9 30 70 370# 320# 110 111 S(p) Q(d,α ) Elt. 109 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z 108 Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 7120# 8640# 9740# 11190# 12320 13490 14800 15764 16807 18262 19652 20760 22320# 23650 ∗ 1060# 780# 360# 200# 130 120 110 5 4 8 16 50 370# 170 ∗ ∗ 28500# 26180# 23440# 22000 19820 17780 15818 13928 11756 9486 6480# 2870 900# Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I 40 41 42 43 44 45 46 47 48 49 50 51 52 53 8230# 9320# 10440# 11580 13070 14290 15382 16464 17666 19072 20200 21750# 23210# ∗ 590# 640# 340# 180 140 16 5 5 7 13 80 300# 310# Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 7840# 9060# 10300# 11150 12450 13900 14968 16001 17243 18502 19946 21180# 22700 23810# ∗ Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe 41 42 43 44 45 46 47 48 49 50 51 52 53 54 8670# 10000# 10820 11960 13489 14540 15640.7 16892 18050 19448 20770 22020 23480# ∗ 109 110 111 S(2n) S(2p) Q(2β − ) Q(α ) 465 Q(β − n) Q(ε p) 760# 540# 230# 120 110 8 7 7 11 21 210# 120 480# ∗ −10220# −8210# −7390# −6150 −5770 −4960 −3860 −3077 −2287 −1429 −491 1170# 3445 4100 920# 500# 450# 160 130 110 5 5 7 11 22 220# 4 50 22950# 19100# 15260# 12370# 9070 5850 2580 −272 −3486 −7211 −11610# −16320 −19860# ∗ ∗ 860# 630# 320# 160# 70 120 110 6 11 20 210# 110 410# ∗ ∗ −25270# −23400# −18330# −18020 −13210 −12890 −8028 −8174 −3003 −2345 3760# 5570 10710# ∗ 29960# 26630# 24200# 22490 20490 18260 16437 14719 12665 10232 7278 3610 1540# 710# 420# 410# 170 150 120 12 6 7 11 22 100 320# −11130# −9170# −7310# −6110 −5940 −5150 −4104 −3302 −2521 −1846 −734 797 3230 3782 860# 710# 500# 140 100 60 5 5 6 12 15 26 50 16 19960# 16440# 13610# 10470 6760 3712 902 −2234 −5869 −10230 −15030 −18650 ∗ ∗ 590# 510# 310# 100 70 12 4 6 10 19 60 110 ∗ −27640# −22330# −21130# −16840# −16350 −11220 −10990 −6273 −6176 −676 567 7140 7610# 1000# 590# 450# 150 130 120 11 5 6 15 24 290# 120 470# ∗ 30450# 27830# 24840# 23260# 21400 19250 17020 15406.6 13451 11170 8010# 4810 2390# 760 950# 720# 310# 200# 140 120 110 2.5 13 15 200# 60 370# 170 ∗ −9270# −8180# −6290# −6150 −5430 −4452 −3524 −2875 −1963 −1136 640# 2723 3580 3885 860# 640# 210# 60 50 13 8 5 13 15 200# 16 50 14 21560# 17340# 14530# 11820 8370 4680 2004 −986 −4509 −8930# −13570 −17220# −20370 ∗ ∗ 900# 510# 400# 70 50 50 11 12 14 200# 50 370# 140 710# 500# 150 100 28 11 2.2 3 6 10 30 100 320# ∗ 28390# 25700# 24000# 22400 19730 17788 16228.9 14251 12014 8977 5420 3270# 1360# 640# 520# 310# 100 70 12 2.5 5 7 29 70 300# 310# −10330# −8330# −6730# −6150 −5680 −4510 −3782 −3315 −2419 −1385 250 2670 3280 3720 710# 500# 420# 180 150 120 12 5 6 9 30 110 50 50 18590# 15570# 13140 9340 5864 3253 175 −3313 −7508 −12460 −15940# −19090# ∗ ∗ 520# 410# 110 70 30 11 5 7 28 70 300# 310# 590# 360# 420# 200 180 120 13 7 11 21 210# 130 470# 9380# 4640# 4180# −270# −100 −4880 −4720 −9194 −8688 −13764 −13610 −19460# −20040# ∗ ∗ 860# 720# 340# 250# 180 120 110 5 4 13 80 300# 360# 950# 670# 310# 210# 130 120 110 4 7 11 21 60 230# 5340# 5130# 640# 1070 −3900 −3558 −8076 −7542 −12464 −12519 −18200# −18610 −23030# ∗ 590# 540# 320# 150 120 12 5 6 10 20 210# 110 370# ∗ ∗ −25460# −20150# −20030# −15530 −14790 −9739 −10035.4 −5041 −4624 1660# 3070 8650# 8420 640# 510# 300# 110 70 12 2.5 12 14 200# 50 310# 150 6130# 5560# 1010# 1820 −3040 −3240 −7698 −7023.4 −11936 −11907 −17656 −18000# −22730 ∗ ∗ 950# 590# 410# 100 50 50 11 2.9 6 15 23 210# 120 ∗ −24480# −22890# −18500# −18690 −13310 −12730 −8197 −8224 −2881 −1700 5070 5310# 10590# 900# 520# 410# 80 50 50 11 5 7 30 70 360# 310# 6760# 1790# 2690 −1960 −2079 −6615 −5939.0 −10854 −10623 −16470# −16680 −21240# −21110# ∗ 640# 410# 120 90 28 11 1.4 12 15 200# 60 320# 330# 466 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(n) 112 Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 3250# 5810# 4850 6890 5460 8404 6475 9394.32 7672 10788 8780 11890 10220# 13640# ∗ 113 Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 4470# 3380# 5800# 4790 7010 5430 8480 6540.1 9445 7743.1 10890 9120 12100# 10200 13480# 114 Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 5240# 4080# 6400# 5020 7880 5987 9042.98 7273.85 10299.2 8170 11610 9740# 13060 10910# ∗ 115 Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 3070# 5450# 3970# 6650 4980 8110 6140.9 9036 7546.4 10560 8250 11610# 9642 13230# 11150# Q(4β − ) S(p) 860# 720# 170 100 60 17 17 0.30 6 5 30 180 370# 320# 1060# 840# 320# 100 70 40 23 0.6 5 1.8 25 170 220# 130 320# 920# 670# 240# 120 40 30 0.14 0.27 2.7 30 40 300# 80 320# 1060# 920# 260# 140 70 40 0.6 4 1.7 30 40 300# 16 430# 610# Q(d,α ) ∗ 15500# 12190# 13560 10360 11270 7909 9648.8 6028 7555 2945 3700 900# 2310# −814 780# 420# 130 90 30 18 1.4 5 5 19 170 220# 320# 7 33940# 27500# 20620 15100 8250 2325 −5024 −13280 −20900# −28690 −35310# ∗ ∗ ∗ ∗ 700# 600# 130 70 50 18 25 170 210# 100 300# ∗ 15630# 12180# 13490 10490 11240 7985 9714 6078 7626 3047 4040 1120 2290# −973.5 920# 670# 140 90 60 24 17 3 5 17 30 180 230# 2.6 36490# 29550# 23310# 16850 10690 4640 −2613 −10702 −18240 −26240 −32720 ∗ ∗ ∗ ∗ 800# ∗ 600# 7200# 300# 8080# 70 7720 50 8690 40 9380 24 9682 28 9882.2 50 10599 80 10773 110 12236 13250 13070 13570# 13400# 16400# 1060# 12880# 840# 14100# 380# 10720 130 12100 50 8550 40 10277 16 6812 3 8480.3 0.7 3471 28 4760 30 1740# 300# 3250 50 −260# 320# 1530 170 32190# 25220# 19490# 12940 7064 −430 −8132 −15780# −23475 −29980# −35940 ∗ ∗ ∗ ∗ 700# 600# 230# 110 24 40 28 300# 12 310# 140 5210# 9820# 6180# 10560 6960 12100 7314 12719 8146 14857 10420 15220# 10720# 16140# 11060# ∗ 13090# 13990# 10970# 12060 8780 10431 6805 8752.8 3731 4840 1740 3150# −100# 1770# 34100# 27880# 21660 15330 9630 2020 −6028 −13199 −21379 −27300# −33040# ∗ ∗ ∗ ∗ 800# 700# 130 80 60 40 28 29 12 300# 600# 990# 610# 240# 130 40 25 4 1.8 16 40 40 300# 300# 670# 8810# 1060# 5490# 780# 10170# 420# 6190 110 10950 70 7150 50 12436 18 7590.8 1.6 13068 5 8525 12 14954 23 10950# 260# 15890# 220# 11070# 330# 16320# 330# Q(p,α ) 6350# 4130# 6110# 3920 5970 3538 5846 3006.2 5376 2692 5902 3820 5380# 2511 ∗ Q(n,α ) 860# ∗ 780# −5900# 320# −2260# 120 −2590# 80 440 17 160 17 4033 1.7 2672.5 6 6373 7 5494 20 10534 170 10980 220# 14810# 7 13290 16970# 780# 520# 310# 110 70 19 2.5 5 5 19 170 210# 120 320# ∗ −4590# −4460# −1100# −2080 1940 1390 4946 3737 7666 7702 13140 12060# 15830 14260# 1000# 590# 410# 90 60 50 11 3 4 21 30 210# 100 330# 860# ∗ 720# −3450# 250# −3790# 130 −770 40 −1180 27 3050 1.6 1630 3 5295 4 4343 29 9527 40 9703 310# 13740# 300# 12050 430# 16050# 14100# 780# 460# 160 80 40 11 4 3 28 29 300# 70 430# 330# ∗ −5660# −1950# −2560 730 400 3892 2734 6191 6639 12245 10910 14290 13040# 16590# 990# 610# 150 100 60 18 17 3 17 28 30 170 370# 610# 780# 500# 130 90 50 20 1.6 3 5 18 40 90 310# 320# 6570# 1130# 4340# 780# 6600# 500# 3620 100 6160 70 3950 60 6181 20 3275.3 1.8 5847 3 3006 12 6288 22 4060# 200# 6010 80 3090# 320# 5060 170 990# 840# 260# 130 60 30 17 3 5 28 30 340# 210# 320# 330# 4180# 6230# 3550# 5900 3720 5919 3063.8 5549 2699 6293 3860 5550# 2730# 4720# ∗ 6600# 1130# 7740# 920# 8010# 330# 8710 110 8990 80 9420 50 9653 16 10223 4 10044.4 1.8 12040 17 13070 30 12720 40 13180 50 13100# 310# 13390# 610# 4360# 6590# 4440 6140 4200 6210 3398 5908 2824 6522 4400 5830 3300# 5130# 2130# 1060# 920# 180 110 80 40 17 4 5 17 30 170 210# 320# 670# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) Q(2β − ) Q(α ) A Elt. Z S(2p) 112 Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 8330# 9520# 11180 11640 13110 14130 15307 16370.2 17664 18960 20200# 21170 22920# 24200 ∗ 860# 720# 150 90 70 17 17 0.4 12 14 200# 180 370# 170 ∗ −10480# 1060# 29510# 1000# −9060# 840# 26960# 520# −7730# 320# 24610# 410# −6610# 210# 23360 90 −6210 140 20930 60 −5090 120 18430 50 −4030 110 16809 11 −3481.1 2.5 15113 5 −2819 7 12886 4 −1834 7 9704 21 90 20 6040 170 2310 170 4130# 290# 2990 50 2270 120 3330 6 550# 430# 3930# 210# 113 Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 7710# 9180# 10650# 11680 12470 13830 14955 15934.4 17117 18531 19670 21000 22320# 23840# ∗ 950# 720# 320# 100 60 40 16 0.7 4 6 30 80 310# 310# ∗ ∗ 27680# 25680# 24040 21600 19250 17623 15727 13653 10602 6980 4820 3190 1340# 590# 410# 120 80 30 11 4 4 18 29 60 110 320# ∗ −9280# −8050# −7380# −6570 −5270 −4447 −3867.6 −3072 −2250 −356 1867 2710 3090 3484 114 Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 8620# 9870# 11190# 12030 13303 14467 15583.1 16719 18042 19060 20730 21840# 23260 24390# ∗ 920# 610# 240# 120 30 30 0.6 5 3 30 170 370# 100 430# ∗ 28500# 26280# 24210 22590 19790 18262 16526 14558 11097 7805 5770# 4360 2020# 560 920# 640# 170 80 60 18 17 3 28 28 300# 170 370# 170 −9830# −8540# −7500# −7100 −5940 −4600 −4097 −3537 −2633 −470 1530 2320# 2770 3360 3530 1060# 780# 460# 140 60 60 11 3 3 30 30 360# 50 50 40 115 Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 8310# 1000# 9530# 760# 10370 150 11670 90 12850 70 14100 40 15183.8 0.6 16310 4 17846 3 18726 24 19860 40 21350 60 22710 80 24140# 320# ∗ ∗ 29490# 1060# 26870# 610# 25060# 310# 22780 90 20880 60 18980 40 17082 17 15565 3 12212 16 8308 28 6500 30 4890 30 3150# 300# 1510# 600# ∗ −8910# −7760# −7420 −6160 −5050 −4511 −3741 −3203 −1033 1457 2130 2400 2820# 2950# 860# 420# 140 100 50 11 4 3 17 29 40 70 430# 670# 467 Q(β − n) Q(ε p) 20200# 16650# 13740 10850 6880 4244 1372 −1919 −6395 −11360 −14510# −17330 −20800# ∗ ∗ 710# 600# 130 80 50 18 17 4 19 170 210# 200 370# ∗ ∗ −22660# −21680# −17810 −16960 −11560 −11865 −7064 −6693 −494 1350 6500# 6230 11360# 520# 410# 120 80 30 11 5 4 18 170 210# 130 430# 7220# 2310# 2590 −1200 −1810 −6187 −5438 −10256 −10123 −15844 −16190 −20430# −20770# ∗ ∗ 810# 610# 140 80 50 18 17 5 7 28 70 350# 370# 21530# 780# 18060# 590# 14960# 310# 11490 110 8350 80 5360 20 2337 2.6 −716 3 −4950 5 −9986 18 −13290 30 −16250 50 −19420 50 ∗ 7 ∗ 860# 600# 300# 70 50 40 17 4 17 28 60 90 120 ∗ ∗ −25210# −20660# −19970 −15500 −14580 −10002 −10034 −5041 −3713 3025 3180 7920 8100# 8570# 3790# 760# 3690# 600# −530 130 −420 80 −5140 50 −4523 18 −9125 17 −8780 4 −14804 18 −15190 28 −19320# 60 −19230 150 −23870# 240# ∗ 1000# 610# 310# 90 50 40 16 5 3 18 170 210# 120 310# 19230# 15900# 12970# 9320 6524 3623 540 −4057 −8672 −11720# −14800 −18260# −21140 ∗ ∗ 740# 610# 230# 120 23 25 3 28 28 300# 30 430# 140 ∗ 4350# −24820# 1000# 4400# −23680# 640# 80# −19200# 320# −10 −18580 70 −4535 −13560 50 −3971 −13620 40 −8723 −8828 17 −8310.4 −8801 3 −14212 −2435 28 −14240 −845 28 −18830 4340# 300# −18780# 3970 30 −23450 9300# 300# ∗ 8860 160 ∗ 760# 600# 240# 120 29 25 3 2.7 17 40 60 310# 100 20120# 17100# 13970 10780 7690 4550 1945 −2533 −7973 −10670 −13410 −16640# −19630# ∗ ∗ 810# 700# 140 90 60 40 3 17 28 30 30 300# 600# ∗ ∗ −22410# −21770# −17160# −16640 −11883 −11877 −7304 −5720 1209 890 5940 5810# 10770# 710# 600# 240# 120 24 25 3 16 28 40 30 420# 600# 5350# 5350# 1130 1220 −3530 −3040 −7590 −7047 −13592 −13190 −17340# −17320 −22190# −21830# ∗ 1000# 740# 170 80 70 30 3 4 28 30 300# 30 310# 330# 468 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 116 Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba 43 44 45 46 47 48 49 50 51 52 53 54 55 56 3710# 6090# 4600 7630 5650 8700.2 6784.72 9563.45 7889 11280 9230 12461 10440# 13650# 990# 710# 160 80 60 2.0 0.22 0.10 17 40 100 18 320# 720# 13740# 14630# 11600 13040 9450 11020 7449 9280 4074 5550 2720 4000 700# 2190# 1060# 990# 190 100 80 30 4 4 5 30 100 30 100# 500# 29820# 24270# 17510 11570 4250 −3450 −10760 −18481 −24750# −30670# ∗ ∗ ∗ ∗ 700# 700# 140 60 50 28 100 13 100# 400# 9270# 5990# 10510# 6380 11640 6940 12482 7754.9 14451 9960 15110 10460# 15730# 10650# 990# 920# 270# 130 50 25 4 1.8 5 40 100 300# 100# 500# 6250# 4140# 6330 3590 5990 3177 5663 2705.6 6376 4010 5720 2950 4890# 1960# 920# 760# 150 70 60 17 4 1.8 6 30 100 60 130# 410# −4910# −4670# −1370# −2110 1760 620 4429 3168 8195 8710 12570 10950 14710# 13140# 1060# 920# 330# 90 70 40 17 3 5 28 100 30 110# 410# 117 Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 5170# 3630# 6290# 4640 7770 5777.2 8766 6943.2 9895 7900 11010 9210 12450# 10760# ∗ 990# 990# 520# 80 70 1.0 6 0.5 10 30 100 17 120# 500# ∗ 14550# 11790# 13080 9590 11150 7515 9439 4406 5565 2450 3980 690 2510# −803 990# 860# 150 70 50 6 4 9 15 40 100 60 320# 11 32410# 26420# 20000# 13870 6380 −1328 −8511 −16215 −22200 −27810# −33920# ∗ ∗ ∗ ∗ 700# 700# 500# 60 50 14 29 11 60 300# 400# 7160# 7810# 8190# 8390 8850 9270 9856 9847 12102 12617 12340 12860 12920 13120# 13220# 1060# 990# 520# 100 80 30 6 4 9 21 40 30 60 420# 720# 6320# 4590# 6450# 3970 6100 3388 5940 3036.3 6780 4280 6320 3480# 5510 2120# 4300# 990# 920# 550# 130 60 25 6 1.8 9 30 40 300# 60 430# 420# ∗ −3050# −3580# −350# −990 2718 1650 5267 5574 11110 9730 13350 12000# 15450# 13670# 990# 780# 240# 120 23 25 3 9 14 40 30 310# 300# 500# Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 3410# 5990# 4260# 7010 5370 8355 6357 9327.4 7426 10695 8610 11965 10040 13160# 11180# 1140# 1060# 710# 220 80 20 6 0.9 9 20 30 15 60 360# 500# ∗ 15360# 12420# 13810# 10320 11730 8094 10000 4888 6365 3163 4934 1513 3220# −380# 1060# 860# 550# 90 50 9 5 3 17 24 30 16 210# 420# 34370# 28790# 22090# 16190 8430 1012 −6259 −13577 −19590 −25350# −31350# ∗ ∗ ∗ ∗ 910# 800# 500# 210 60 25 21 11 13 200# 300# ∗ 5540# 10020# 5980 11110 6570 12200 7305 14239 9811 15010 10120 15348 10410# 15690# 1060# 860# 250 80 50 9 4 3 16 30 100 18 220# 500# 5970# 4050# 6150# 3610 5700 3140 5724 2745 6901 4146 5960 3120 5111 2190# 4270# 1210# 1060# 520# 230 90 40 8 4 3 22 30 30 18 360# 670# ∗ −5970# −2380# −3390 290 −660 3400 2081 7184 7961 11679 9630 13570 11930# 15730# 1130# 860# 250 100 60 40 3 5 15 25 30 30 200# 420# Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 3400# 6170# 4230# 7060 5270 8545 6483.6 9549 7535 10870 8787 11967 10290# 13420# ∗ 1060# 780# 370# 110 80 9 0.6 8 17 30 15 19 280# 500# 15340# 12610# 13770# 10380 11630 8285 10127 5110 6474 3330 5112 1515 3470 −120# 1670# 1140# 1000# 590# 230 100 22 8 8 8 30 22 17 200 450# 670# 30660# 24470# 18450# 10920 3280 −3939 −11274 −17172 −22590 −28800# −34790# ∗ ∗ ∗ ∗ 700# 600# 300# 90 80 29 11 16 200 400# 600# 7320# 7480# 8040# 8680 9070 9432 9587 11633 12171 12040 12351 12591 12560 13030# 13220# 990# 920# 590# 110 90 8 5 8 12 30 30 17 210 500# 720# 4370# 6080# 3980# 6270 3520 5879 3046 6915 4501 6370 3560 5606 2340# 4500# ∗ 990# 920# 330# 110 90 8 4 8 10 40 100 19 220# 570# ∗ −4840# −1530# −2180 1700 510 4297 4419 9990 8702 12121 10830 14100 12750# 16250# 920# 760# 160 100 50 4 9 8 29 30 100 200 410# 720# 119 S(p) Q(d,α ) Elt. 118 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) Q(α ) S(2p) Q(2β − ) 469 Q(β − n) Q(ε p) A Elt. Z 116 Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba 43 44 45 46 47 48 49 50 51 52 53 54 55 56 9170# 10060# 11250 12610 13760 14841.1 15820 17109.8 18448 19520 20840# 22103 23670# 24800# 920# 740# 180 60 50 2.0 4 1.7 29 40 310# 17 320# 420# ∗ 27720# 25590# 24010# 21510 19801 17879 16085 12827 9286 7550 5740 3850# 2100# 990# 17990# 920# 15510# 190 11830 90 8760 70 5680 18 2809 17 −1429 3 −6259 7 −9330 28 −12220 100 −15420# 170 −18440# 230# ∗ 410# ∗ 710# 700# 150 60 50 4 7 28 100 30 140# 400# ∗ 5610# −25430# 1060# 1690# −20920# 710# 1600 −20820 140 −3050 −15650 90 −2550 −15610 60 −7254 −10550 40 −6285 −10727 3 −12596 −4574 7 −12830 −2522 28 −17000 2220 100 −16910 1730 30 −21420# 6980# 110# −21120# 6760# 400# ∗ 710# 700# 150 70 50 5 4 16 29 40 100 300# 610# 117 Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 8890# 9720# 10880# 12270 13420 14477.5 15551 16506.6 17784 19180 20240 21671 22890# 24410# ∗ 990# 710# 510# 90 60 2.3 6 0.5 19 30 40 16 310# 670# ∗ −10080# 1060# 19100# 28280# 1060# −8290# 920# 16520# 26420# 860# −7650# 590# 13320# 24680 140 −6750 90 9890 22630 100 −6010 70 6680 20600 60 −5160 40 3975 18540 40 −4337 17 −300 16887 3 −3776 3 −5303 13686 10 −1700 9 −8210 9639 14 811 14 −10912 8010 30 1560 30 −13990 6701 30 1737 30 −16900# 4680 70 2260 80 −19930# 3210# 300# 2380# 310# ∗ 1390# 500# 2770# 410# ∗ 860# 700# 510# 60 50 4 10 14 29 17 70 300# 410# ∗ ∗ −23490# −19370# −18820 −13750 −13670 −8970 −7684 −858 −902 3795 3760 8470# 8270# 990# 710# 510# 80 50 5 5 5 29 100 30 100# 410# 118 Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 8590# 1140# 9610# 1060# 10550# 520# 11650 220 13140 80 14132 20 15123 9 16270.6 1.0 17321 6 18590 30 19620 100 21175 17 22480# 100# 23910# 450# ∗ ∗ ∗ 26970# 25590# 23410 21330 19240 17515 14327 10771 8728 7388 5500 3900# 2130# 860# 730# 150 60 50 4 5 15 21 30 100 200# 320# ∗ 19940# 1030# ∗ −9040# 1060# 17550# 830# ∗ −7840# 780# 14430# 510# −22580# −7360# 310# 11240 210 −22750# −6360 130 7660 60 −17910# −5640 30 4948 20 −17470 −4706 26 769 8 −12250 −4060 3 −3935 15 −12520 −1852 4 −7028 20 −6343 415 15 −9642 18 −4610 1120 30 −12562 24 385 1385 30 −15710# 200# −271 1960# 300# −18790# 300# 4740 2290# 200# ∗ 4520# 2490# 430# ∗ 9530# 119 Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 9380# 10430# 11240# 12430 13620 14902 15811.0 16975 18230 19470 20752 22000 23450# 24600# ∗ ∗ 27960# 26190# 24190# 21960 20020 18221 15110 11362 9699 8275 6450 4980 3100# 1290# 920# 760# 510# 100 50 4 9 8 29 17 30 200 410# 670# −9370# 1060# 18380# −8550# 920# 15320# −7620# 330# 12290# −6770 120 9150 −5930 100 6160 −5140 40 1773 −4403 3 −2884 −2366 9 −5712 427 8 −8390 810 30 −11460 843 30 −14200 1610 30 −17340# 1640 200 −20590# 2310# 500# ∗ 2600# 840# ∗ 990# 780# 300# 100 80 6 1.0 12 16 40 15 60 360# 570# 990# 610# 240# 120 23 25 3 5 28 100 30 320# 400# −9370# −8040# −7160 −6900 −5250 −4808 −4050 −3373 −1250 967 1680 1830 2600# 2940# 760# 600# 310# 90 80 11 8 29 13 30 200 400# 630# 860# 700# 150 60 50 4 10 14 29 30 110 300# 410# 6530# 2660# 2940# −2030 −1620 −6247 −5488 −11650 −11447 −15680 −15460 −20190# −19910# ∗ ∗ 860# 730# 510# 60 50 4 6 15 22 17 30 200# 310# 6740# 1140# 2960# 950# 3320# 510# −1270 220 −1210 60 −5835 21 −4902 8 −11083 9 −10974 14 −15360 30 −14857 22 −19710 60 −19190# 300# −23930# 450# ∗ ∗ 3820# −25330# 1080# 4160# −20990# 860# −130# −20710# 510# 80 −15730 220 −4750 −15430 60 −4120 −10649 20 −10140 −9536 11 −9828 −2817 8 −14285 −3055 28 −13758 1638 18 −18456 1377 24 −18000# 6200 200 −23040# 6150# 400# ∗ 11080# 630# ∗ 860# 630# 310# 90 80 8 3 17 21 30 16 200# 360# 470 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) Q(4β − ) S(p) Q(d,α ) A Elt. Z 120 Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 5770# 4070# 6600# 5160 8140 6100 9108.0 7018 10291 8100 11449 9655 12370 10790# 13770# 1060# 840# 320# 120 80 40 2.2 11 13 30 16 17 360 640# 920# ∗ 13280# 14200# 11320# 12710 9120 10690 5645 7216 3894 5700 2383 3870 390# 2030# 920# 610# 310# 90 90 7 7 13 20 30 14 300 540# 810# 33030# 26500# 20960 12780 5431 −1950 −8933 −14536 −20520 −26100# −32470# ∗ ∗ ∗ ∗ 800# 600# 120 70 21 40 12 13 300 500# 700# 4960# 9400# 5700# 10530 6300 11680 6836 13942 9306 14642 9509 14901 10230 15400# 10630# 121 Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 5920# 4180# 7080 5160 8180 6170.3 9242 7218 10569 8372 11283 9930 12790# 11070# ∗ 1080# 520# 160 90 50 0.3 7 27 16 16 17 330 710# 860# 13430# 1210# 14310# 780# 11800 190 12700 110 9160 30 10760 40 5779.0 2.1 7416 27 4172 4 5972 21 2217 18 4140 140 800# 590# 2310# 710# −840 50 28760# 22950# 14930 7490 446 −6731 −12495 −17810 −23890# −29770# −35520# ∗ ∗ ∗ ∗ 900# 500# 150 90 29 11 14 140 500# 500# 700# 122 Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 3890# 1140# 6510# 640# 4640# 250# 7740 90 5810 60 8813.2 2.5 6806.38 0.15 9834 26 7864 11 10954 16 9110 30 11940 140 10210# 590# 13200# 640# 11380# 860# ∗ 14900# 12260# 13360 9810 11394 6415.1 8007.9 4818 6357 2960 4800 1090# 2730# −530# 990# 540# 150 100 27 2.1 1.9 26 15 30 30 330# 640# 710# 30680# 25250# 17100# 9580 2500 −4591 −10190 −15705 −21540# −27520# −33250# ∗ ∗ ∗ ∗ 123 Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr 46 47 48 49 50 51 52 53 54 55 56 57 58 59 3990# 6800# 4650 7920 5945.8 8965.3 6929.18 9935 7965 10980 9120 12240# 10410# 13520# 15000# 12550# 13370# 9980 11530 6567.1 8130.7 4918 6457 2978 4800 1390# 2920# −210# 920# 450# 210# 50 50 2.9 1.9 3 11 16 30 200# 420# 720# 27210# 19270# 11860 4517 −2572 −8180 −13517 −19240# −25070# −30710# ∗ ∗ ∗ ∗ 720# 290# 60 60 1.2 2.1 0.16 6 15 30 30 360# 500# 780# Q(p,α ) Q(n,α ) ∗ −3730# −4500# −1050# −1800 2180 967 6167 6642 10502 8571 12192 10940 14400# 13230# 920# 710# 510# 60 60 4 9 10 20 18 30 300 510# 760# 6870# 1140# 7690# 780# 7670# 330# 8210 120 8780 80 9211 7 11184.1 2.7 11637 27 11608 13 12000 30 12405 17 12270 140 12900# 540# 12970# 640# 13140# 920# 5700# 1210# −6240# 3750# 710# −2690# 5670 260 −3880# 3370 110 50 5730 30 −630 2890 8 3151 6925.0 2.8 3282 4312 26 8751 6298 12 7359 3362 23 10895 5843 17 9517 2530 140 12980 4840# 540# 11660# 1780# 590# 15320# ∗ 13690# 1280# 950# 520# 230 70 20 8 26 11 18 24 140 500# 540# 760# 700# 400# 210# 40 50 11 30 28 300# 400# 500# 8760# 1060# 5250# 720# 9630# 240# 5630 80 11110 50 6500 40 13485.7 2.1 8821 8 14035 11 9145 21 14740 30 9991 30 15060# 420# 10560# 640# 15530# 860# 5210# 3410# 5260# 2690 5190 2623 6602.2 4027 5968 3270 5520 2560 4910# 2000# 3980# 990# ∗ 720# −5800# 360# −2350# 100 −3460# 90 630 8 −390 2.7 5021 8 5400.7 10 9044 30 7476 30 11270 30 9832 360# 13410# 570# 12400# 780# 15730# 810# 630# 300# 100 80 8 2.9 10 14 40 30 300# 450# 640# 600# 210# 40 24 10 12 12 200# 300# 600# 7180# 1080# 7010# 540# 8060 150 8350 90 8731 27 10690.8 2.6 11134.0 1.9 11319 26 11750 14 12140 16 12156 18 12750# 240# 12940# 590# 13080# 780# 3490# 5060# 3200 5410 2780 6745.0 4117 6325 3405 5993 3098 5050# 2380# 4230# 840# 240# 80 30 40 2.6 8 10 20 17 16 360# 590# 920# 1210# 1000# 520# 220 70 40 8 7 10 19 23 14 300 540# 760# 3770# 5640# 3660# 5750 3160 5550 2704 6840 4104 6171 3130 5161 2420 4460# 1670# 1060# 920# 520# 90 50 40 5 8 13 22 30 14 310 590# 810# −4020# 1000# −5080# 630# −1520 130 −2130 80 1800 19 2160 40 7579.6 2.4 6128 8 9802 14 8392 22 12164 17 10830# 200# 14360# 420# 13000# 780# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(2β − ) Q(α ) S(2p) Q(β − n) Q(ε p) A Elt. Z S(2n) 120 Ru Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 9170# 1130# 10240# 780# 10830 240 12230 100 13408 28 14650 40 15591.6 2.3 16568 8 17826 11 18961 27 20236 16 21622 16 22660# 360# 24210# 590# ∗ ∗ 28620# 26810# 25090# 23090 20750 18974 15772 12326 10368 9029 7496 5390 3860# 1910# 1080# 810# 510# 210 80 20 11 10 18 19 22 300 500# 730# ∗ −8910# −8120# −7340 −6440 −5590 −4811 −2599 −301 607 670 1180 1730 1960# 2480# 920# 710# 160 60 60 4 8 10 19 30 100 300 510# 810# 19210# 16420# 13830 10090 7131 2690 −1700 −4635 −7232 −9901 −13280 −16200# −19180# ∗ ∗ 810# 600# 120 80 19 40 10 19 15 20 300 500# 760# ∗ ∗ −24190# −19700# −19640# −14470 −14490 −8009 −6625 −1601 −2277 2588 2620 7330# 7600# 121 Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 9990# 1080# 10780# 590# 12250 170 13300 120 14279 28 15278.3 2.2 16260 8 17509 27 18664 30 19821 15 20938 20 22300 250 23580# 640# 24840# 780# ∗ ∗ 27590# 26000# 24020# 21860 19870 16469 13061 11388 9866 7910 6530 4670# 2690# 1190# 860# 610# 310# 90 80 8 26 13 14 30 140 500# 540# 810# −9650# −8680# −8140# −6960 −6000 −5204 −3075 −576 −67 199 910 1020 1620# 2160# 2510# 1140# 860# 520# 100 60 4 6 26 14 17 30 140 510# 590# 810# 17580# 14800# 11180 8140 3754 −653 −3308 −6078 −9187 −11730 −14700# −18040# −20820# ∗ ∗ 920# 510# 140 80 27 26 10 28 17 140 500# 520# 860# 122 Rh Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 9810# 10690# 11730# 12900 13980 14983.5 16048 17052 18433 19325 20390 21860 23000# 24280# ∗ 920# 420# 220# 50 60 2.5 7 10 19 16 30 300 590# 810# ∗ 28330# 26580# 25160 22510 20550 17170 13786.9 12234 10528 8930 7010 5230# 3530# 1780# 900# 630# 130 90 19 40 2.4 9 15 40 30 300# 500# 710# −10130# 1140# −9200# 900# −8520# 540# −7690 210 −6440 80 −5662 20 −3525 8 −1082.9 2.9 −506 6 −59 18 410 40 1045 30 1440# 300# 2110# 450# 2310# 590# 18330# 16040# 12350# 9220 4750 368.1 −2250 −4959 −7940 −10750 −13600# −16770# −19660# ∗ ∗ 123 Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr 46 47 48 49 50 51 52 53 54 55 56 57 58 59 10500# 11440# 12390 13730 14759.0 15771.6 16763 17799 18918 20086 21050 22450# 23610# 24900# 780# 250# 90 40 2.6 2.1 26 11 15 18 140 540# 590# 920# ∗ 27450# 25630# 23340 21340 17961 14545.8 12926 11275 9334 7760 6180# 4010# 2520# 930# 510# 150 80 27 2.4 4 28 16 16 200# 330# 780# 920# 16700# 630# 13470# 300# 10510 90 5798 80 1351.4 8 −1281 2.9 −3923 9 −6900 13 −9594 30 −12340# 16 −15480# 200# −18370# 360# ∗ 720# ∗ −9790# −9140# −8110# −7290 −6340 −3945 −1528.4 −891 −489 300 715 1170# 1990# 2210# 471 710# 600# 300# 100 80 10 10 20 15 30 300 500# 730# 4220# 4320# 340 190 −4341 −3740 −9699 −9311 −13710 −13066 −17939 −17370 −21990# −21760# ∗ 1000# 670# 150 110 20 40 8 11 30 21 18 200 500# 780# ∗ −22600# −22720# −18200 −17480 −12519 −11150 −4735 −5152 −357 −600 4140 4200# 8900# 8820# 950# 610# 150 80 19 40 26 13 15 23 140 500# 590# 860# 5000# 1320# 1240 −3400 −2807 −8851 −8262 −12830 −12186 −16655 −16280 −21130# −20770# ∗ ∗ 910# 510# 150 90 27 7 10 30 16 15 300 520# 860# 730# 400# 210# 40 50 2.7 5 11 30 30 300# 400# 590# ∗ ∗ −21440# −21760# −16210 −16170 −9778 −8398.9 −3774 −4093 860 570 5270# 5620# 10220# 5290# 1900# 930# 1760# 510# −2960 160 −2440 80 −8422.2 27 −7850 2.4 −12098 5 −11679 28 −16326 30 −15470 30 −20280# 300# −19910# 430# −24330# 710# ∗ 860# 430# 220# 50 50 2.8 26 10 12 18 150 500# 590# 810# 600# 210# 40 24 2.7 4 10 13 15 200# 300# 630# ∗ −24350# −19910# −19480# −14380 −12940 −6514.9 −6902 −2223 −2253 2411 2140# 7150# 6920# 730# 400# 210# 40 50 2.7 4 10 13 16 200# 300# 670# 2550# 2700# −1810 −1552 −7561.6 −6981.4 −11163 −10660 −15180 −14510 −19180# −18940# −23360# ∗ 630# 210# 60 24 2.8 1.5 5 12 30 30 300# 450# 590# 472 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) Q(4β − ) S(p) Q(d,α ) Q(p,α ) A Elt. Z 124 Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 6260# 4590# 7470 5520 8487.6 6467.50 9423.97 7493 10483 8759 11506 9620# 12720# 10870# ∗ 780# 280# 70 50 2.6 0.06 0.17 4 10 15 17 200# 420# 840# ∗ 13150# 14050# 10850 12100 7088.8 8589.4 5482.0 7006 3772 5335 1890 3410# 250# 1450# 630# 210# 60 24 2.9 1.5 1.9 4 13 17 60 360# 670# 840# 29440# 21150# 13810 6490 −576.6 −5889 −11435 −17110 −22840# −28600# −34590# ∗ ∗ ∗ ∗ 500# 200# 60 50 2.2 9 13 60 300# 600# 600# 4810# 8930# 5230# 10560 6050 13036.5 8516.4 13659.9 9131 14334 9760 15060 10430# 15420# 11100# 860# 450# 210# 70 50 2.9 1.9 1.9 5 14 30 60 420# 720# 780# 3150# 4650# 2810 5050 2468 6447.8 3934.6 6050 3491 5605 2875 5350 2440# 4440# 1950# 125 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd 47 48 49 50 51 52 53 54 55 56 57 58 59 60 6400# 4720 7680 5733.1 8706.5 6568.97 9542.8 7603.3 10428 8649 11570 9910# 12850# 11190# 360# 90 60 0.6 2.6 0.03 1.9 0.4 11 17 60 360# 720# 720# 13300# 14180# 11060 12310 7307.7 8690.9 5600.85 7116.1 3716 5226 1959 3690# 380# 1780# 590# 210# 70 50 2.6 1.5 0.07 2.9 8 14 29 200# 500# 720# 23450# 15660 8360 1293.5 −4168 −9354 −15077 −20530# −26180# −32050# ∗ ∗ ∗ ∗ 300# 70 30 2.3 8 11 26 200# 400# 400# 6520# 7310# 7540 8238 10276 10912.7 11046.27 11462 11872 12087 12606 12760# 12970# 13430# 670# 220# 50 24 3 1.5 0.18 4 12 16 29 280# 500# 720# 126 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 4280# 7040 5400 8193 6210 9113.69 7145 10048 8329 11073 9290 12230# 10420# 13340# ∗ 420# ∗ 90 14810# 50 11740 11 12830 30 7790 0.08 9098.0 4 6177 6 7621 14 4442 17 5871 90 2590 200# 4350 450# 890# 570# 2270# −760# 300# 80 30 30 2.1 4 6 12 15 90 40 280# 570# 640# 25390# 17740 10100 3148 −2050 −7395 −12940 −18348 −24090# −29780# −35400# ∗ ∗ ∗ ∗ 300# 50 40 12 30 13 90 29 200# 400# 510# 8490# 4860# 9610 5570 12550 8266.5 13325 8907 14026 9772 14830 10150 15280# 10950# 15640# 127 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 5960# 4260 7240 5550 8370 6287.8 9143.9 7224 9966 8217 10990 9230 12240# 10610# 13560# 420# 90 60 27 30 0.4 2.7 6 13 17 90 60 280# 570# 780# ∗ 14790# 11950 12970 7969 9170 6208 7699 4360 5760 2515 4290 900# 2460# −550# 310# 70 50 12 30 3 3 8 17 29 110 200# 450# 720# 27800# 19760 12000 4822 −460 −5466 −11087 −16350 −21810# −27390# −32840# ∗ ∗ ∗ ∗ 300# 70 40 25 8 12 26 60 200# 400# 600# ∗ 7000# 7080 7690 9909 10685.2 10750 11226 11663 11983 12483 12490 12940# 13200# 13270# Q(n,α ) ∗ −3740# −4810# −570 −1530 3867 4325.9 7876.6 6537 10202 9029 12490 11570# 14920# 13850# 920# 510# 150 80 27 2.4 2.6 26 13 17 60 330# 780# 780# 4750# 2740# 5110 2540 6555 4172.0 6341.65 3752 6131 3340 5710 2750# 4790# 2140# 500# −6260# 220# −3020# 50 −3600# 50 480 3 970 1.9 6570.2 0.24 5140.1 5 8768.4 14 7639 30 11333 40 10030 360# 13600# 570# 12280# 640# 15870# 760# 410# 210# 40 50 2.7 1.9 2.2 9 16 40 200# 500# 570# 590# 200# 70 50 30 1.5 4 6 12 15 90 60 360# 720# 780# 4460# 2490# 4360 2270 6290 4023.6 6125 3639 5768 3238 5550 2750# 4780# 2310# ∗ 670# 210# 60 26 30 1.5 4 7 15 17 90 200# 360# 720# ∗ −6070# −2210# −3060 2670 3402.3 6960 5650 9245 8225 11720 10480 14100# 12930# 16410# 600# 210# 40 40 2.7 4 6 13 16 90 30 280# 500# 780# 310# 80 40 5 2.2 3 4 6 14 28 60 280# 570# 720# 4760# 2820# 4590 2240 6401 4203.2 6405 3908 6284 3780 6058 3150 5260# 2570# 4310# 590# 210# 70 50 5 1.6 3 4 6 14 29 80 360# 720# 840# ∗ −4080# −4870# −1140 −180 5602.1 4284 7850 6771 10491 9482 12760 11470# 15050# 13720# 510# 200# 70 50 1.6 4 4 6 12 27 60 200# 500# 840# 1030# 540# 160 100 27 2.6 1.9 26 10 14 19 150 590# 780# 920# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(2β − ) Q(α ) 473 Q(β − n) Q(ε p) A Elt. Z 124 Pd Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 10250# 11380# 12120 13440 14433.4 15432.8 16353.15 17428 18448 19730 20620 21860# 23130# 24390# ∗ 640# 280# 80 70 2.6 2.1 0.23 5 11 30 30 300# 500# 780# ∗ 28150# 26600# 24220# 22080 18620 15156.5 13612.7 11924.0 10229 8313 6700 4790# 3170# 1240# 730# 410# 210# 40 50 2.7 2.6 2.2 10 17 70 300# 670# 720# −10280# −9660# −8990 −7650 −6688 −4310 −1844.4 −1365 −680 −367 658 1210 1640# 2130# 2780# 950# 630# 140 90 19 40 2.4 8 10 20 17 60 420# 780# 920# 17920# 14410# 11530 6740 2287.8 −255.3 −2864.4 −5634 −8570 −11470 −14270# −17130# −20330# ∗ ∗ 510# 200# 60 50 1.5 2.4 2.2 9 13 60 300# 600# 670# ∗ ∗ −23390# −18210# −18210 −11483 −9993.0 −5429.8 −5777.2 −1077 −1130 3500 3540# 8290# 8390# 3090# 2770# 600# −1360 210# −1130 40 −7084.0 24 −6519.7 2.7 −10653 2.4 −10188 2.2 −14688 9 −14148 16 −18450# 60 −18160# 300# −22560# 630# ∗ 670# ∗ 540# 200# 70 50 2.1 1.5 3 10 12 15 200# 300# 670# 125 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd 47 48 49 50 51 52 53 54 55 56 57 58 59 60 10990# 12190 13200 14220.7 15174.0 15992.94 17036 18086 19187 20156 21200# 22630# 23720# ∗ 360# 80 40 2.6 2.6 0.17 3 10 14 16 200# 360# 720# ∗ 27320# 25100# 23170 19407 15779.7 14190.3 12598.1 10722 8997 7294 5580# 3780# 2020# 600# 210# 40 24 2.7 1.5 2.2 9 15 29 200# 450# 500# −10150# −9530# −8240 −7260 −4839 −2243.0 −1666.2 −1066 −225 380 916 1660# 2070# 2660# 950# 510# 150 80 28 2.4 1.9 26 13 16 29 240# 640# 640# 15680# 12540 7770 3123.7 580.9 −1830.1 −4749 −7524 −10328 −13010# −15850# −19040# ∗ ∗ 300# 70 30 1.6 2.1 2.2 8 11 27 200# 400# 450# ∗ −21850# −21300# −16480 −14670 −8074.4 −8505.1 −3956.5 −4012 703 683 5140# 5060# 9920# 510# 200# 60 50 1.5 1.5 2.2 8 11 27 200# 410# 500# 3840# −550 −320 −6349.6 −5802.3 −9728.6 −9247.6 −13532 −13069 −17480 −17010# −21600# −21490# ∗ 310# 80 30 2.2 2.1 1.9 2.2 9 15 60 300# 630# 720# 126 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 10680# 11760 13080 13926 14920 15682.66 16688 17651 18756 19723 20860 22140# 23270# 24540# ∗ 360# 80 60 11 30 0.09 4 6 15 18 110 300# 630# 720# ∗ 28110# 25920# 23890 20100 16405.8 14868 13222 11558 9588 7820 6310 4580# 2650# 1020# −10540# 510# −10060# 200# −9010# 60 −7720 60 −5250 1.5 −2543.5 4 −2005 6 −1279 12 −690 13 260 90 740 30 1360 200# 1860# 500# 2520# 780# 2890# 760# 400# 210# 40 60 2.7 4 6 13 17 100 40 360# 570# 710# 16800# 13690 8580 4044 1510 −896 −3566 −6499 −9370 −11850 −14720# −17930# −20690# ∗ ∗ 300# 50 50 11 30 6 13 14 90 30 220# 400# 540# ∗ ∗ −20300# −19950 −13210 −11455.0 −6944 −7435 −2797 −2767 1830 1560 6210# 6480# 11050# 4270# 80 300# 10 70 −5836 40 −5450 1.6 −9299.46 4 −8790 6 −13152 12 −12748 13 −16982 90 −16390# 30 −20980# 200# −20710# 450# ∗ 640# ∗ 127 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 10240# 11300 12650 13743 14587 15401.5 16289 17271 18295 19290 20280 21460# 22660# 23950# ∗ 420# 100 50 25 5 0.4 3 4 10 16 40 200# 450# 570# ∗ ∗ 26760# 24720 20800 16960.5 15306 13877 11982 10201 8386 6890 5250# 3340# 1720# ∗ −10330# 300# −9460# 70 −8610 30 −5699 1.7 −2885.5 4 −2184 4 −1574 6 −722 12 8 27 723 60 1250 200# 1850# 450# 2330# 720# 2860# 600# 210# 50 25 2.7 4 4 7 15 29 60 280# 500# 840# 18090# 14980 9720 4782 2283 40 −2743 −5505 −8344 −10840 −13460# −16550# −19380# ∗ ∗ 300# 70 40 25 6 4 6 12 27 60 200# 410# 630# ∗ ∗ −23260# −18460 −16180 −9550 −9870 −5545 −5618 −936 −840 3410 3250# 8110# 7910# 300# 60 40 11 30 4 6 13 29 60 220# 400# 630# 5360# 1220 960 −5170 −4707 −8442 −7886 −12047 −11641 −15910 −15150 −19790# −19610# −23930# ∗ 310# 60 40 11 30 0.10 4 10 16 29 220# 400# 450# 300# 80 40 40 5 4 6 13 14 90 40 200# 450# 640# 474 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Z 128 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 3970# 6840 5450 7910 5980 8782.3 6826.13 9611 7763 10657 8810 11630 9970# 12830# 11060# ∗ 420# 300 60 40 26 2.1 0.05 4 8 15 60 60 200# 450# 720# ∗ 15680# 13130 13640 8400 9581 6746 8166 4900 6450 3110 4930 1640 3040# −90# 1280# 420# 90 50 40 5 3 4 7 12 60 40 60 280# 570# 780# 29810# 21700 13380 6525 1323 −3591 −9110 −14326 −19600 −25220# −30590# −36490# ∗ ∗ ∗ ∗ 300# 290 50 27 26 10 50 28 30 200# 400# 500# ∗ 4440# 8680 5190 12123 8120 13037 8761 13948 9654 14750 10150 15200 10790# 15560# 11230# 420# 70 50 27 30 3 4 8 16 60 90 40 280# 570# 710# ∗ 2380# 3860 2010 6154 4127.5 6148 3840.4 6125 3550 5900 3090 5190# 2590# 4440# ∗ Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 5720# 3980# 6650 5330 8090 6082.41 8837 6908.7 9640 7734 10770 8820 11510 10120# 12970# 11280# 500# 420# 60 40 30 0.08 5 1.6 7 15 60 40 40 280# 570# 710# ∗ 15690# 12940 13520 8580 9684 6800 8248 4929 6422 3214 4940 1530 3190# 50# 1500# 420# 300 60 30 25 3 4 5 12 23 60 40 200# 450# 640# 32180# 23800# 15560 8104 2873 −1939 −7177 −12410 −17730 −22830# −28380# −34040# ∗ ∗ ∗ ∗ 400# 300# 40 29 22 11 21 28 30 200# 400# 500# ∗ 6410# 6290 7100 9580 10408 10489 10997 11531 11886 12200 12320 12910 12910# 13190# 13520# 420# 90 50 30 5 3 4 6 12 24 40 60 280# 570# 780# ∗ 2680# 4250 2080 6257 4260 6425 4077 6532 4144 6208 3550 5910 2890# 4810# 2180# Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 1780# 6440# 5020 7620 5735 8419.5 6500.33 9255.64 7471 10268 8370 11210 9470 12430# 10600# 13400# ∗ 520# 410# 60 30 27 1.0 0.04 0.29 10 11 30 40 70 200# 500# 640# ∗ 16410# 13980# 14490 8990 10013 7218 8667 5492 7050 3852 5390 2180 4110 520# 1920# −1028 490# 300# 40 30 21 3 3 8 5 28 30 70 40 360# 570# 15 36130# 25780 17040 9743 4609 −90 −5304 −10459 −15720 −20665 −26160# −31840# −37240# ∗ ∗ ∗ ∗ 330# 280 40 11 19 3 26 28 60 28 300# 400# 510# ∗ 3940# 8110 4930 11750 7968 12771 8567 13670 9381 14484 9920 15070 10450 15420# 11180# 15820# 410# 300 50 30 25 3 4 8 6 28 60 70 40 360# 570# 710# ∗ 2190# 3490 1710 6072 4213 6213 3965 6284 3842 6052 3340 5660 2700# 4820# 2340# ∗ 130 S(p) Q(d,α ) Elt. 129 S(n) Q(4β − ) A 420# 80 40 25 3.0 3 1.9 6 13 60 40 200# 450# 570# 420# 70 50 24 30 3 4 8 16 24 90 40 280# 570# 710# 410# 80 40 30 5 3 4 9 6 28 40 90 200# 500# 720# Q(n,α ) ∗ ∗ −3910# −4330 1520 2552.8 6164 4808.6 8551 7437 11100 9780 13080 12120# 15510# 14220# 300# 70 40 2.2 4 1.9 6 10 50 30 40 280# 570# 640# ∗ ∗ −6280# −2620 −1170 4664 3540 7013.6 6057 9750 8665 12030 10850 14230# 12960# 16280# 300# 60 50 11 30 1.6 6 13 24 30 100 200# 450# 640# ∗ ∗ −5350# −5980 340 1794 5414 4045.8 7729 6706 10258 9040 12370 11030 14610# 13490# 16770# 300# 80 40 25 6 1.7 9 5 27 30 70 60 360# 570# 780# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(2β − ) Q(α ) Q(ε p) 475 Q(β − n) A Elt. Z 128 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 9930# 11100 12690 13457 14350 15070.1 15970.0 16834 17729 18874 19800 20860 22220# 23440# 24620# ∗ 420# 300 60 29 40 2.1 2.7 6 13 16 110 40 200# 450# 640# ∗ ∗ 27920# 25590 21370 17550 15920 14373.4 12599 10811 8860 7440 5940 3940# 2370# 740# ∗ −10920# 300# −10310# 60 −9050 50 −6160 11 −3180.3 30 −2543 1.9 −1760.4 7 −991 12 −166 60 670 30 1130 100 1500 200# 2210# 450# 2660# 640# 3020# 580# 200# 70 60 2.1 4 1.9 6 10 60 30 60 360# 720# 780# 19560# 16050 10250 5657 3129 867.9 −1807 −4459 −7300 −9868 −12300 −15350# −18280# −21140# ∗ ∗ 300# 290 40 27 25 1.5 6 10 50 30 60 200# 400# 540# ∗ ∗ −22750# −22110 −14910 −12782 −8327 −8867.9 −4237 −4370 320 −10 4280 4500# 9100# 9090# 5650# 1620 300# 1070 80 −4706 50 −4399 25 −8080 6 −7488.5 2.0 −11691 6 −11187 11 −15577 50 −14730 30 −19170# 40 −18980# 200# −23200# 450# ∗ 640# ∗ 310# 300 50 28 25 4 2.0 6 13 28 80 200# 400# 630# 129 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 9700# 10830# 12100 13240 14070 14864.7 15663 16519 17403 18392 19570 20450 21490# 22950# 24030# ∗ 500# 310# 60 40 22 2.1 5 4 7 16 30 60 200# 450# 720# ∗ ∗ 28620# 26650 22220 18082 16381 14994.2 13095 11322 9664 8050 6460 4840# 3090# 1410# ∗ ∗ 300# −10560# 80 −9660 40 −6570 25 −3529.6 6 −2673 1.7 −2100.1 6 −1089 12 −297 22 337 30 960 40 1560 210# 2000# 450# 2540# 640# 2940# 20490# 17390# 300# 11690 70 6409 40 3876 2.2 1694.2 4 −1003 1.6 −3633 5 −6174 11 −8780 22 −11550 30 −14050# 40 −16830# 280# −19980# 570# ∗ 640# ∗ 400# 300# 50 29 21 1.8 6 11 21 30 40 200# 400# 540# ∗ ∗ −25430# −20590 −17560 −10958 −11184 −6994.3 −7051 −2493 −2684 1825 1570 6010# 6100# 10640# 6770# 3090# 300# 2320 300 −4060 50 −3707 27 −7337 25 −6715 1.8 −10837 6 −10170 11 −14500 22 −13860 30 −18030 60 −17660# 200# −22260# 400# −21970# 540# ∗ 500# 300# 50 40 21 4 3 6 11 60 30 40 200# 450# 640# 130 Ag Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 7500# 10420 11670 12947 13830 14502.0 15337 16164.3 17112 18003 19140 20030 20990 22560# 23570# 24680# ∗ 150# 410 60 29 30 1.0 5 1.6 10 10 60 40 70 200# 500# 640# ∗ ∗ 29670# 27430 22510 18595 16902 15467.6 13740 11980 10275 8599 7120 5640 3720# 1980# 470# ∗ ∗ 300# −11300# 290 −10240 50 −6900 27 −3756 25 −2960 1.8 −2242.1 9 −1415 3 −518 27 292 30 820 80 1370 40 1800 300# 2360# 450# 2890# 640# 3210# 23730# 18570 300# 12400 60 7212 40 4641 11 2530.3 30 −32 1.6 −2620.1 9 −5272 7 −7839 29 −10450 30 −12830 110 −15710# 40 −19020# 360# −21540# 570# ∗ 710# ∗ 340# 280 40 11 17 2.0 9 2.9 27 28 70 40 310# 400# 590# ∗ ∗ −24730# −24230# −16640 −14047 −9594 −10167.5 −5686 −5853.2 −1417 −1650 2860 2400 7010# 7370# 11720# 8970# 3300 400# 2630 300# −3583 50 −3360 29 −6919 21 −6306 1.8 −10453 9 −9907 2.9 −14007 26 −13410 30 −17720 70 −17010# 40 −21720# 300# −21290# 450# ∗ 640# ∗ 450# 290 50 24 17 3 3 5 14 21 40 40 210# 400# 590# 476 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 131 Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 1770# 6320 5247 7768 5929.38 8583 6604.8 9231 7493.50 10210 8360 11170 9240 12340# 10690# 13490# 410# 50 24 27 0.06 3 1.2 10 0.30 40 40 80 40 360# 500# 640# 16400# 13860 14710 9138 10207 7381.9 8772 5467 7072 3797 5380 2140 3880 430# 2020# −939 450# 280 40 23 17 2.2 3 5 9 28 40 60 70 200# 420# 7 29940# 19307 11101 6072 1474 −3675 −8700 −13780 −18915 −24030# −29520# −34930# ∗ ∗ ∗ ∗ 300# 28 21 21 3 28 30 50 28 200# 300# 400# 7900# 5780# 6340 9320 10129 10269.6 10799 11348 11527 12010 12320 12720 12720 13210# 13460# 13610# 500# 300# 50 40 21 2.1 3 5 5 30 40 60 40 280# 500# 640# 4400# 4020 1910 6210 4263 6411.8 4187 6664 4112 6496 3780 6120 3430 5310# 2710# 4560# 420# 300 50 30 25 2.1 4 5 6 30 60 60 40 280# 500# 640# ∗ −7690# −4380 −1980 3772 2811 6223.3 5325 8823 7809 11330 10000 13410 12240# 15630# 14340# 300# 290 50 27 25 2.0 6 3 28 40 80 40 200# 360# 570# Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 3530# 2350 7311 5757 8044 6327 8936.59 7167 9822.4 8040 10830 9010 11730 10050# 13120# 11220# 590# 70 25 25 7 6 0.22 5 3.0 50 40 80 40 280# 420# 570# ∗ 14440# 15710 9648 10483 7779 9125.1 6029.7 7664 4350 5990 2790 4440 1230# 2800# −410# 300# 30 26 22 6 0.6 2.1 5 40 30 70 60 200# 360# 500# 34460# 23280 12726 7482 3253 −1960 −6806 −11940 −17009 −22030# −27230# −32710# ∗ ∗ ∗ ∗ 500# 60 14 14 7 40 21 60 24 200# 300# 410# 6150# 9860 4050 11176 7820 12362 8363 13436.6 9176 14230 9860 14920 10460 15600# 10930# 15790# 600# 290 40 18 18 6 3 2.0 8 40 30 60 70 200# 420# 570# 6600# 5650# 1250 5780 4310 6167 4087 6405.5 3930 6190 3716 5940 3210 5390# 2560# 4610# 640# 300# 50 30 22 6 3 2.0 5 40 29 60 40 280# 500# 640# ∗ −4320# −7710# −1090 1058 4574 3369.1 6994 5908.9 9410 8237 11760 10510 13710# 12630# 16090# 410# 300# 50 30 22 2.0 4 1.3 40 23 60 40 200# 360# 570# In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 3580# 2470 7340 5834 8258 6434.4 8986.3 7189.9 9830 8021 10800 8980 11770# 9950# 12850# 300# 40 29 25 7 2.6 1.9 0.4 50 26 60 50 200# 360# 500# 14500# 15820 9677 10560 7993 9233 6079.4 7686.5 4349 5970 2753 4410 1270 2710# −680# 590# 70 29 28 8 6 1.0 2.1 28 40 24 70 60 280# 420# 27960# 16690 9128 4609 −392 −5220 −10133 −15220 −20090 −25300# −30660# ∗ ∗ ∗ ∗ 300# 40 25 24 28 17 12 50 60 200# 300# 8050# 7900 9080 9750 10034 10511.6 11055.1 11217 11900 12060 12490 12660 13070 13320# 13630# 420# 50 30 30 5 2.7 1.0 5 28 30 40 70 60 280# 420# 8500# 3800 6060 4211 6329 4153 6674.8 4211 6631 4070 6350 3710 6050 3210# 5160# 410# 50 28 30 5 4 0.8 8 28 30 30 80 60 360# 500# −6130# −3740 −3410 2841 2051 5354 4508 7974.7 7052 10485 9337 12740 11410 15110# 13830# 450# 290 50 27 18 3 3 1.2 29 17 29 50 80 200# 420# 133 S(p) Q(d,α ) Elt. 132 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(2β − ) Q(α ) 477 Q(β − n) Q(ε p) A Elt. Z 131 Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 8210# 11340 12860 13503 14348.9 15084 15860.5 16702 17762 18590 19570 20650 21680# 22930# 24090# ∗ 420# 50 40 30 1.0 3 1.2 7 11 30 40 60 200# 450# 590# ∗ 30260# 28690# 23630 19194 17395 15990.0 14134 12564.3 10847 9230 7530 6060 4540# 2540# 980# ∗ 400# −11660# 300# −11220 50 −7430 29 −4135 21 −3169 2.0 −2559.0 6 −1502 2.9 −788 28 46 40 680 60 1190 40 1780 200# 2270# 360# 2800# 570# 3280# 300# 80 40 25 5 1.8 6 5 28 40 60 60 280# 500# 720# 22050# 13851 7895 5456 3205.7 615 −1731.4 −4291 −6970 −9490 −11950 −14540# −17570# −20380# ∗ ∗ 300# 21 21 21 2.2 5 2.9 28 30 60 40 200# 300# 450# ∗ −29270# −23030 −19390 −12359 −12442 −8352.8 −8416 −4091.0 −4158 260 60 4360 4150# 9110# 8830# 340# 280 40 11 17 2.2 6 2.9 29 30 60 40 210# 300# 500# 6550# 3930 −3094 −2708 −6348 −5634.0 −9586 −8870 −13127 −12420 −16610 −15750 −20370# −20230# −24330# ∗ 300# 30 27 21 3 1.4 8 5 26 40 70 60 300# 450# 590# 132 Cd In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 5290# 8670 12558 13525 13973 14910 15541.4 16398 17315.9 18250 19190 20180 20970 22380# 23810# 24710# 580# 70 17 22 7 7 1.2 9 3.0 50 30 90 40 360# 500# 640# ∗ 30840# 29560 24360 19621 17986 16507.0 14801 13131.1 11420 9790 8160 6580 5110# 3230# 1610# ∗ 340# −10040# 280 −11690 40 −7740 13 −4273 18 −3516 2.2 −2713.3 4 −1843 1.3 −999.7 40 −230 21 503 60 990 40 1680 210# 2190# 300# 2510# 500# 3120# 300# 290 50 28 26 2.0 4 1.8 40 23 80 40 200# 360# 570# 25830# 17250 8628 6026 4098 1456 −845.6 −3420 −5961 −8530 −11050 −13500# −16180# −19210# ∗ ∗ 500# 60 14 14 7 6 1.4 40 21 70 30 200# 300# 450# ∗ ∗ −28580# −18830 −15157 −11001 −11360.0 −7000.5 −7308.6 −2970 −3079 1270 1000 5280# 5230# 9940# 9350# 6820 300# −2638 30 −2535 22 −5809 21 −5356 2.2 −9292 2.2 −8543 1.4 −12737 40 −12100 21 −16270 60 −15520 40 −19760# 200# −19590# 300# −23970# 450# ∗ 500# 70 25 15 7 6 5 3 28 50 60 60 200# 360# 500# 133 In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 5940# 9780 13100 13878 14585 15371.0 16154 17012.3 17870 18850 19800 20710 21810# 23070# 24070# 300# 40 30 25 5 2.6 5 2.9 40 40 50 50 200# 360# 500# ∗ −7900# 30270# 300# −10180# 25380 40 −8430 20210 30 −4780 18477 21 −3684 17012 3 −3065.3 15204.5 1.1 −1993 13716.2 1.4 −1281.0 12013 28 −419 10317 17 216 8750 30 964 7190 60 1530 5710 70 1940 3940# 200# 2680# 2120# 360# 3240# 500# 300# 50 40 22 3.0 3 1.2 28 20 24 50 60 280# 500# 21010# 300# 11992 26 6944 25 4699 24 2184 5 −90.1 2.6 −2577 28 −5130 16 −7560 30 −10090 50 −12530 50 −15200# 200# −18130# 300# ∗ ∗ ∗ −27520# 500# −23810 70 −13679 28 −13502 15 −9750 7 −9660 6 −5561.9 1.4 −5627 28 −1277 16 −1490 40 2850 50 2520 80 7010# 200# 7140# 360# 10550# 650 −1832 −5316 −4677 −8559 −7707.4 −11880 −11090 −15280 −14583 −18690# −18230# −22700# ∗ 300# 40 26 25 5 3 1.1 40 30 60 27 200# 300# 450# 478 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 134 In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 2170# 3910 3290 7686 6257 8552.2 6891.54 9467.7 7800 10484 8650 11390 9400 12450# 10610# ∗ 500# 110 50 27 9 2.5 0.01 1.1 30 26 40 50 80 280# 360# ∗ 16160# 10500 10906 8417 9527 6536.6 8167.9 4954 6630 3380 4998 1700 3390# −10# 1580# 310# 60 28 26 5 2.4 0.4 20 30 40 17 70 200# 280# 500# 32050# 21330 12730 6390 1146 −3289 −8380 −13303 −18480 −23330# −28690# −34070# ∗ ∗ ∗ ∗ 400# 100 40 11 21 20 40 12 60 200# 200# 400# 9410# 6330 13100 7825 11820 8286 13100.1 8916.9 13927 9620 14670 10280 15400 10920# 16130# 11640# 640# 120 50 18 11 6 1.0 1.9 20 40 40 60 60 280# 360# 570# 8110# 6210 8010 4293 6001 4183.9 6388.1 3974 6329 3800 6070 3500 5890 3090# 5240# 2640# 500# 100 50 23 8 1.4 1.0 5 20 30 50 50 60 280# 360# 570# ∗ −5880# −380 401 3562 2731.4 6199.6 5111.7 8488 7494 10900 9720 13190 11910# 15560# 14270# 310# 50 24 22 2.1 1.1 1.0 21 21 50 40 80 200# 280# 500# In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 3250# 2070# 3610 3340 7788 6364 8762.0 6971.96 9503 7860 10490 8639 11310 9420# 12440# 10680# 640# 410# 110 90 11 5 1.0 0.10 22 23 40 23 80 250# 360# 640# ∗ 16060# 10200 10950 8519 9634 6746.3 8248.3 4990 6695 3389 4990 1620 3410 −20# 1640# 570# 140 100 13 9 1.3 0.4 10 23 24 40 60 170 360# 540# 36590# 25620# 17870 10020 2861 −1792 −6646 −11637 −16670 −21770 −26740# −32030# ∗ ∗ ∗ ∗ 500# 400# 100 90 12 12 12 19 60 160 300# 500# ∗ 7840# 11960 11830 9866 10180 10772.6 10931.3 11614 11580 12198 12435 13070 13260 13650# 13810# 500# 110 90 26 7 2.6 0.4 10 30 20 23 70 160 360# 590# 8390# 6490# 11710 6710 6257 4147 6562.7 4169.5 6648 3980 6402 3860 6310 3720# 5920# 3190# 710# 410# 100 90 10 7 1.4 1.9 10 40 24 60 60 250# 420# 640# ∗ −4430# −1640 4370 1530 4412 3764 7076.4 6152 9456 8450 11907 10880 14210 13160# 16710# 640# 120 90 16 8 6 1.1 10 11 40 28 80 160 360# 590# Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 3780# 3240# 4670 3780 8079 6828.2 9107.74 7460 9915 8463 11057 9290 12030 10140# 12940# ∗ 640# 320# 100 50 8 2.1 0.04 50 17 17 23 100 160 360# 640# 16600# 11370# 12010 8960 9924 7211 8594.1 5480 7107 3991 5552 2270 4120 690# 2150# −920# 710# 500# 110 100 10 5 1.1 50 17 16 17 80 60 250# 500# 780# 29920# 21460# 14460 6540 43 −5011 −9688 −14840 −19657 −25070# −30150# −35220# ∗ ∗ ∗ ∗ 500# 300# 50 70 15 12 12 90 18 200# 400# 600# 6230# 12630# 10450 13770 8358 12496.6 8715.1 13620 9461 14220 10030 15160 10640 15960# 11480# 16310# 640# 310# 60 50 11 2.1 0.4 50 24 24 40 80 60 280# 450# 720# 6290# 10940# 9380 8310 4326 6169 4048.1 6380 3890 5960 3602 6000 3460 5730# 3090# ∗ 590# 300# 50 60 8 3 0.4 50 30 20 17 90 50 280# 500# ∗ −1300# 2170 5090 2166 5194 4403.1 7680 6732 9810 8870 12390 11170 14790# 13720# 16960# 420# 60 60 25 5 2.4 50 13 30 20 80 50 200# 450# 670# 136 S(p) Q(d,α ) Elt. 135 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(2β − ) Q(α ) 479 Q(β − n) Q(ε p) A Elt. Z 134 In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 5750# 6380 10630 13520 14515 14986.6 15877.9 16657.7 17620 18505 19440 20363 21170# 22400# 23460# ∗ 410# 100 50 13 10 1.3 1.9 1.1 40 29 70 27 200# 360# 450# ∗ 30650# 26320 20583 18977 17520 15769 14247.3 12641 10979 9350 7750 6100 4660# 2690# 900# 510# 80 17 16 7 6 1.1 20 20 50 24 80 200# 280# 500# −8290# −7650 −6700 −4845 −4206 −3198.0 −2384 −1493.1 −743 1 690 1350 2010 2670# 3220# 3580# 520# 300 60 15 19 2.1 3 0.8 22 21 40 30 90 200# 360# 570# 22140# 15760 9910 5565 2819 825.4 −1673 −4114 −6700 −9190 −11780 −14140# −16910# −19930# ∗ ∗ 400# 100 40 11 8 0.9 20 20 40 24 70 200# 200# 450# ∗ ∗ −23530# −18900 −12419 −12469 −8294 −8595.2 −4437 −4571 −310 −512 3910 3540# 8290# 8270# 10860# 4080 300# 710 40 −4744 27 −4500 24 −8124.8 5 −7409.0 2.4 −11527 20 −10867 20 −14970 50 −14250 20 −18310 60 −17680# 200# −22300# 200# ∗ 450# ∗ 400# 100 50 12 8 0.8 1.0 28 26 24 60 50 200# 360# 135 In Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 5410# 5990# 6910 11030 14046 14916 15653.5 16439.7 17299 18344 19141 20020 20710 21870# 23050# ∗ 590# 400# 110 90 9 5 1.0 1.1 30 20 17 50 80 250# 420# ∗ ∗ 26360# 21450 19425 18050 16273 14784.9 13157 11649 10020 8368 6620 5100 3370# 1630# ∗ −7960# 320# −4000 100 −2940 26 −4227 25 −3632 5 −2562.4 2.4 −1860.2 10 −1016 11 −366 30 410 25 1080 60 1880 160 2490 300# 3120# 540# 3590# 500# 110 90 22 5 1.5 1.0 11 11 30 40 80 160 360# 590# 22510# 17030# 14080 8590 3792 1433 −931 −3226 −5715 −8411 −10960 −13360 −15780# −18680# ∗ ∗ 510# 410# 100 90 7 5 10 11 15 22 60 160 300# 530# ∗ ∗ −24970# −18320 −16910 −11147 −10798 −7015.0 −7048 −2964 −3006 1333 1250 5500 5260# 10040# 11530# 5300# 410# 4780 130 −1830 40 −3736 12 −7597 8 −6703.3 0.9 −10703 10 −9886 11 −14180 23 −13361 28 −17550 70 −16540# 160 −21100# 300# −20690# 540# ∗ 510# 400# 100 90 7 5 1.1 20 23 40 17 60 200# 250# 500# 136 Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 5850# 6860# 8010 11570 14443 15590.2 16079.70 16960 17775 18960 19695 20600 21450# 22580# 23620# ∗ 510# 300# 50 50 7 1.9 0.11 60 24 40 17 100 200# 280# 570# ∗ 27430# 22210 19910 18444 16844 15340.4 13720 12096 10687 8941 7260 5742 4100# 2120# 730# 500# 110 70 13 8 0.9 50 13 23 24 90 17 200# 450# 630# −8210# −4880# −300 −2250 −3668 −3064 −2031.4 −1310 −458 −10 850 1590 2190 3020# 3770# 4110# 710# 300# 50 50 10 6 1.1 50 13 40 24 100 27 280# 500# 720# 17920# 14620# 12000 6840 2462 −300 −2419 −4710 −7269 −10130 −12388 −14940# −17760# −20290# ∗ ∗ 510# 300# 50 50 7 50 13 50 18 80 17 210# 400# 630# ∗ −24970# −20920# −17080 −15890 −9838 −9759 −5740 −5907 −1966 −1863 2450 2114 6430# 6520# 10930# 590# 400# 110 90 8 5 50 13 16 16 80 23 200# 430# 670# 5130# 4880# 1290 −1150 −6915 −6559.5 −10308 −9480 −13604 −13185 −17290 −16410 −20690# −20150# ∗ ∗ 510# 310# 40 50 7 1.9 10 50 18 23 60 170 300# 540# 480 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(n) 137 Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 1880# 3450# 3210 5070 4025.53 8278.2 6905.61 9140 7481.54 9921 8452 10950 9290 11830# 10230# 13100# 780# ∗ 500# 11040# 130 11970# 60 9370 0.11 10170 1.9 7409 0.08 8671.5 50 5503 0.16 7130 15 3998 16 5542 80 2163 40 4120 280# 490# 570# 2240# 840# −760# 138 Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 2970# 4440# 3900 5840 4413 8611.72 7495 9761 8026 10509 8940 11540 9810# 12640# 10700# ∗ 500# 240# 90 40 9 0.04 14 16 18 16 30 40 200# 450# 720# 139 Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 3240# 2940# 4580 3560 5885 4723.43 8778.0 7455 9763 8045 10630 8954 11720 9820# 12610# 10820# 590# ∗ 450# 12930# 90 10200# 50 10600 10 7840 0.04 9315 2.6 6258.7 12 7717 16 4544 28 6149 30 2767 16 4729 30 1189 280# 3070# 500# −320# 780# 1350# Q(4β − ) S(p) 12130# 12960# 10060 10940 7797 9005.00 6092 7757 4542 6130 2649 4714 1010 3050# −290# 1230# Q(d,α ) Q(p,α ) Q(n,α ) 640# 320# 50 50 7 1.9 13 50 9 17 18 90 200# 450# 720# 32070# 26290# 18160 10600 3499 −3368 −8141 −13028 −17850 −23160# −28370# −33070# ∗ ∗ ∗ ∗ 600# 400# 120 30 15 12 11 19 40 200# 400# 600# 7600# 11250# 10860 12040 12121 10582 10571.4 11461 11483 12158 12066 12852 12660 13550# 13690# 13890# 780# 570# 160 90 10 5 1.1 13 17 16 16 23 70 250# 500# 780# 6580# 11400# 9470 10921 6557 6442.9 4034.0 6713 4204 6523 3800 6438 3580 6350# 3480# 5430# 720# ∗ 410# −2590# 130 2880 30 3310 11 5827 1.0 3173 0.4 6049.7 13 5437 24 8718 24 7688 40 10902 18 10090 70 13270 280# 12370# 450# 15940# 720# 14470# 570# 160 50 13 8 0.9 13 13 23 23 40 40 200# 450# 630# 670# 450# 150 50 12 0.18 4 16 19 17 30 18 50 280# 570# 840# 27730# 22330# 14190 7420 244 −6244 −11584 −16071 −21380 −26240# −31310# −36560# ∗ ∗ ∗ ∗ 300# 210# 80 40 17 12 28 16 30 200# 400# 600# 12060# 9660# 12810 10060 14249 8787.9 13073 9180 14048 10020 14970 10410 15770 11200# 16130# 11750# 590# 360# 90 70 12 1.9 4 50 19 17 30 80 30 280# 570# 840# 10510# 8640# 10360 8500 8394 4184.3 6190 3946 6357 3782 6140 3340 5970 3280# 5410# ∗ 500# −2310# 230# 510# 120 3020 40 3320 10 6549 1.1 3802 4 6704 14 5928 18 9165 17 8253 30 11642 60 10362 160 13870 360# 12730# 640# 16210# 14890# 590# 450# 130 100 12 5 4 10 17 16 30 23 60 250# 500# 780# 500# 210# 80 40 9 2.4 7 13 29 18 30 18 200# 360# 640# 30380# 24120# 18390 11309 4122 −2922 −9735 −14572 −19425 −24460# −29330# −34690# ∗ ∗ ∗ ∗ 500# 400# 30 22 9 26 14 13 15 200# 300# 500# 10700# 10170# 11430 11570 12389 12342.66 11200.7 10859 11766 11896 12795 12403 13340 13200# 13760# 14030# 780# 11050# 570# 8940# 130 10450 30 8720 8 10588 0.18 6289.0 2.4 6519.6 15 3950 15 6509 28 4200 18 6567 17 3680 40 6277 280# 3600# 500# 5750# 780# 3150# ∗ 1350# 1690# 4430 4440 7158 4754 7581 6860 10123 9477 12465 11450 14930# 13740# 17010# 640# 300# 50 50 7 3 7 50 29 18 16 80 200# 360# 640# 710# 500# 50 50 8 1.9 2.4 50 15 29 18 80 18 280# 500# 780# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(2β − ) Q(α ) 481 Q(β − n) Q(ε p) A Elt. Z 137 Sn Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 5650# 6690# 7880 8856 12105 15106.4 16013.35 16593 17396 18384 19509 20240 21310 21960# 23180# ∗ 720# 410# 150 29 8 1.1 0.09 17 17 17 22 60 160 360# 640# ∗ 27640# 23340# 21370 19130 17334 15882 14097 12606 11105 9533 7715 6390 4620# 2930# 1390# 640# 420# 110 90 7 5 13 13 15 16 18 50 200# 430# 670# ∗ −4750# −1030 10 −1860 −3084 −2502.5 −1455 −750 −110 418 1440 1880 2970# 3490# 3850# 500# 130 40 25 5 2.4 13 13 30 20 18 60 200# 450# 670# 19250# 16240# 12820 10043 5342 555 −1843 −3923 −6298 −9104 −11550 −14060# −16810# −19010# ∗ ∗ 610# 400# 120 28 7 13 13 9 17 18 40 200# 400# 630# ∗ ∗ −20350# −18910# −15240 −14340 −8585 −8051 −4281 −4430 −401 −35 3880 3890# 8310# 7970# 138 Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 6420# 7650# 8970 9870 12691 15517.33 16630 17243 17947 18961 19880 20830 21630# 22870# 23800# ∗ 420# 210# 100 40 9 0.09 50 16 19 17 80 17 200# 450# 720# ∗ 24010# 22030# 20300 17970 16414 14764 13260 11670 10128 8190 6876 5130 3550# 1950# 470# 540# 310# 60 50 7 4 10 50 18 30 17 80 200# 450# 720# −5560# −1560# −590 −20 −1240 −2562.1 −2058 −1044 −338 393 1150 1724 2560 3300# 3770# 4210# 500# 230# 90 40 12 0.9 4 10 25 24 40 17 60 280# 450# 720# 17180# 14220# 10560 8110 3637 −693 −3393 −5550 −8190 −10520 −13190 −15720# −18120# −20840# ∗ ∗ 310# 210# 80 40 10 10 14 16 30 17 40 200# 400# 630# ∗ −22910# −19360# −17880 −13674 −13171 −7268 −7136 −3320 −3429 948 793 5030 4960# 9100# 8980# 139 Sb Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 6200# 7380# 8480 9407 10298 13335.15 16273 17217 17789 18554 19566 20500 21530# 22460# 23310# ∗ 640# 420# 40 22 3 0.06 14 15 14 28 19 40 200# 450# 670# ∗ 25070# 23160# 20660 18776 17112 15263.7 13809 12301 10691 8897 7378 5903 4080# 2730# 1050# 720# 400# 120 28 7 2.4 7 16 29 18 16 19 200# 360# 640# −5550# −2430# −1560 −240 664 −922 −2074.4 −1527 −598 208 1014 1409 2150 2900# 3600# 4070# 710# 570# 110 90 8 5 2.6 7 13 28 18 22 60 250# 420# 710# 18520# 14850# 11860 9270 6530 2039 −2408 −4961 −7327 −9611 −12098 −14850# −17230# −19840# ∗ ∗ 500# 400# 30 21 4 7 8 26 15 28 19 200# 300# 540# ∗ ∗ −20970# −17000# −15660 −12050 −11633 −5980 −5588 −1712 −1654 2349 2250 6680# 6290# 10800# 520# 300# 50 50 7 14 13 50 17 18 40 210# 400# 630# 6500# 6100# 1870 1851 −4112 −5729.98 −9760 −8703.6 −12623 −12049 −16450 −15333 −19830# −19040# −23310# ∗ 670# 400# 130 27 7 0.19 50 1.6 15 17 80 18 200# 450# 720# 630# 410# 130 29 7 4 10 19 18 30 16 30 200# 450# 720# 6340# 2500# 1980 −1680 −3237 −9232 −8717 −12463 −11623 −16017 −14990 −19550# −18610# −22850# ∗ ∗ 320# 210# 80 40 9 13 14 15 18 18 50 200# 400# 630# 300# 210# 80 40 9 7 8 28 20 16 30 200# 300# 540# 7540# 3460# 3240 −828 −511 −6460 −7734 −11892 −10877 −15120 −14070 −18702 −17690# −21970# −21300# ∗ 540# 410# 50 23 3 4 10 16 14 40 18 30 200# 450# 670# 482 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(p) Q(d,α ) Q(p,α ) Q(n,α ) Elt. Z 140 Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 4230# 3510# 5420 4421 6429 5160.98 9202 7943 10330 8780 11147 9660 12330# 10390# 13220# ∗ 500# 200# 60 9 8 0.04 7 10 40 40 17 50 200# 850# 710# 13930# 10760# 11440 8696 9859 6696.3 8140.9 5032 6717 3500 5248 1890 3670 240# 1960# −1094 590# 450# 70 22 9 2.4 1.8 9 29 40 18 50 30 820# 590# 10 26310# 20050# 15090 7644 980 −6110 −12627 −17710 −22470 −27720 −32620# −37680# ∗ ∗ ∗ ∗ 300# 200# 60 10 29 40 13 50 40 800 500# 510# 8900# 12370# 10050 13810 10327 14651.4 9152 13584 9590 14520 10200 15220 10680 16010# 11500# 16350# 420# 280# 100 40 12 2.4 3 12 30 40 30 50 40 820# 640# 780# 8160# 10150# 8380 10192 8138 8264.3 3881 6047 3790 6240 3481 5900 3100# 5600# 3030# ∗ 500# 230# 70 11 8 2.4 14 15 30 40 18 70 200# 900# 780# −1000# 1630# 2220 5098 4754 7871.0 5284.4 8052 7270 10620 9771 12730 11890 15180# 14020# 17350# 670# 450# 140 29 11 2.4 2.5 15 30 40 17 50 50 820# 640# 780# 141 Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 2670# 4320# 3410 5497 4526 6689 5428.14 9397 8017 10390 8554 11010 9510 12130 10550# 13140# 500# 280# 110 13 11 4 0.10 6 28 40 15 50 30 810 590# 710# ∗ 10850# 11340# 8770 9964 6956 8408.0 5226.6 6792 3560 5020 1760 3530 50 2120# −1177 360# 220# 60 11 9 1.8 1.1 7 30 40 18 60 110 850# 7 28170# 22420# 17110 11544 4472 −2415 −9501 −16094 −20974 −25980 −30620# −35550# ∗ ∗ ∗ ∗ 400# 200# 90 11 9 15 9 13 20 110 300# 500# 9470# 10990# 11220 11878 11686 12686 12502.1 11642 11336 12180 12269 13164 12885 13700# 13560# 14030# 640# 450# 100 23 9 5 1.8 7 8 29 16 17 24 220# 420# 710# 8460# 10280# 8870 10540 8026 10187 5949 6412 3798 6359 3866 6435 3390 6100# 3180# 5430# 500# 280# 120 40 12 5 3 10 14 18 29 17 30 220# 500# 780# ∗ 280# 3250# 3500 6070 5596 8467.9 6150 9017 8255 11726 10660 13920 12860 16110# 14900# 360# 220# 80 40 10 2.5 3 10 20 15 30 23 110 360# 640# Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 3950# 3270# 5220 4110 6169 5168 7169.7 5843.15 9829 8705 11126 9460 11810 10590# 12710# 11170# 720# 450# 140 15 10 7 2.4 0.08 3 29 10 30 30 320# 470# 710# ∗ 11450# 12250# 9480 10635 7598 8889 5641.6 7223.3 4248 5759 2670 4320 1120# 2710# −550# 570# 220# 90 12 10 5 1.1 1.5 25 15 30 30 300# 380# 590# 30390# 24310# 19060 13278 8132 1122 −5546 −12470 −18996 −24100# −29030# −33850# ∗ ∗ ∗ ∗ 600# 400# 100 11 6 26 6 30 28 300# 360# 500# ∗ 11950# 9510# 13190 9939 13947 10493.4 15001.4 9451 13810 9920 14850 10740 15430# 11230# 16080# 500# 220# 60 10 10 2.9 1.1 6 40 40 30 60 300# 880# 710# 7750# 9940# 8230 9993 7742 9743 7556.9 8024 3732 5700 3368 5920 3300 5330# 3070# 5080# 780# 570# 110 23 7 6 2.9 7 8 40 15 30 30 360# 470# 710# ∗ 240# 970# 3970 3467 6313 6022 9085.0 6644 9313 8645 11820 11067 13990# 13220# 16340# 640# 410# 30 22 6 3 2.0 7 26 26 30 30 300# 410# 590# 142 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(2β − ) Q(β − n) Q(ε p) Elt. Z 140 Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 7170# 8090# 8980 10306 11152 13939.0 16657 17706 18380 19410 20101 21380 22150# 22990# 24040# ∗ 360# 210# 70 12 8 2.6 10 15 30 50 17 60 200# 900# 780# ∗ 23700# 21640# 19300 17700 16012 14399.6 12749 11261 9650 8016 6620 4860 3310 1640# 250# 360# 210# 80 40 9 2.5 7 30 40 17 60 30 800 540# 640# −2880# −1820# −990 20 729 −407 −1621.3 −1080 −210 700 1318 1790 2600 3360# 3790# 4240# 590# 360# 80 50 11 3 2.5 50 30 40 17 90 30 820# 640# 780# 16030# 12780# 10280 7270 4812 374 −3832 −6490 −8800 −11220 −13670 −16500 −18940# −21180# ∗ ∗ 300# 200# 60 8 8 6 28 40 30 60 30 800 500# 950# ∗ −21240# −19480# −15500 −14916 −10909 −10458.5 −4753 −4588 −670 −753 3220 3309 7630 7400# 11570# Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 6900# 7820# 8830 9919 10955 11849 14630 17340 18349 19169 19701 20671 21840# 22520# 23770# ∗ 570# 200# 90 11 8 4 7 8 26 19 14 18 200# 320# 590# ∗ 24780# 22110# 20220 18660 16815 15104.3 13367.5 11823 10278 8525 7008 5422 3720 2370# 780# 540# 410# 30 22 6 2.5 2.0 8 16 27 18 23 110 360# 590# −3670# −2690# −1190 −399 229 1182 −143.8 −1345 −744 229 1217 1721 2380 3050# 3470# 4210# 720# 450# 150 30 11 5 2.5 14 14 18 14 18 50 220# 500# 780# 16770# 13960# 11400 8461 5714 3083 −1242 −5498 −8259 −10596 −12714 −15390 −17910# −20170# ∗ ∗ 410# 200# 90 11 8 4 3 14 9 19 22 110 300# 510# ∗ ∗ −18660# −17490# −14020 −13176 −9458 −8988.8 −3404 −3117 1024 990 4943 5160 9180# 8820# Te I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 6610# 7590# 8630 9607 10694 11856 12597.8 15240 17846 19090 19680 20480 21320 22720# 23260# 24310# 670# 450# 120 13 10 6 2.4 6 28 40 14 60 40 860# 620# 710# ∗ ∗ 23090# 20820# 19410 17562 15845 14049.6 12449.9 11040 9319 7690 6080 4650# 2760# 1570# 320# 200# 60 10 8 2.0 1.7 26 29 50 30 310# 360# 950# ∗ −2990# −1970# −610 −100 428 1298 307 −812 −450 600 1200 2110 2270# 3390# 3730# 500# 230# 80 40 11 3 3 10 29 13 40 30 300# 410# 640# 18040# 14790# 12350 9520 6715 3758 1416.7 −2636 −6962 −9840 −12033 −14260# −17000# −19590# ∗ ∗ 610# 400# 100 11 6 6 2.1 25 6 40 29 300# 360# 590# ∗ ∗ −21210# −17290# −16790 −12847 −12102 −8143 −7804.1 −2425 −2084 1910 1690 5580# 5980# 9780# 142 S(2p) Q(α ) A 141 S(2n) 483 540# 410# 30 22 4 2.5 6 29 40 29 50 30 800 540# 590# 3810# 3300# −360 −209 −4111 −5440 −11331 −10775 −14830 −13900 −18129 −17530# −21690# −20870# ∗ ∗ 300# 200# 60 8 8 7 8 27 30 40 18 200# 300# 950# 310# 200# 60 9 8 2.0 3 15 29 40 23 120 300# 950# 4640# 4400# 650 723 −3476 −2926 −8816 −9840 −14060 −13138 −17020 −16220 −20810 −19770# −24080# ∗ 450# 210# 90 13 8 4 6 28 40 19 50 30 800 510# 590# 410# 200# 90 12 9 4 1.7 25 6 30 29 300# 360# 510# 5020# 4530# 930 1139 −2956 −2666 −6588.9 −7666.2 −13504 −13290 −17138 −16170 −20490 −19810# −23660# ∗ 630# 410# 100 13 7 6 2.4 2.8 14 27 14 40 110 420# 620# 484 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 143 I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 3990# 3040# 5228 4184 6224 5144.84 7352.1 6123.57 9880 8602 10990 9340 11450# 10430# 12880# ∗ 570# 220# 25 15 16 0.09 1.9 0.07 25 6 30 200 310# 410# 640# 11500# 12010# 9490 10710 7653 8866 5824.0 7503.7 4299.5 5655 2538 4200 760 2550# −390# 1170# 720# 450# 100 17 16 5 1.8 1.5 2.4 25 12 200 70 360# 540# 780# 26550# 21170# 15402 10072 4779 −2089 −8831 −15780 −22530 −27200# −31960# −36880# ∗ ∗ ∗ ∗ 400# 200# 24 13 16 4 11 200 60 200# 400# 630# 10630# 10790# 11370 11252 12249 12037 13077.4 12724.3 11943 11711 12407 12400 13500 12930# 13750# 13730# 570# 280# 90 17 17 5 2.1 1.5 4 14 14 200 60 220# 500# 780# 10180# 8690# 10180 7979 9948 7573.1 9873.8 5552 6150 3550 6078 3620 6210 3020# 5420# 2820# 500# 280# 70 16 17 2.9 2.1 6 28 40 17 210 70 820# 640# 780# ∗ 2160# 2250# 4700 4510 7306 6893.9 9722.2 7376 10375 9610 12870 12200 15110# 13850# 17130# 360# 200# 60 17 8 2.6 1.7 7 28 40 200 80 200# 900# 780# I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 3010# 4900# 3670 5905 4780 6896 5753.5 7817.03 6526.7 10520.1 9451 11600 10010 12330# 10990# 13620# 640# 360# 30 19 50 3 2.8 0.05 1.5 2.4 15 200 70 200# 500# 720# ∗ 12930# 10110# 11387 8250 9539 6433 7968.6 4702.6 6295.2 3387 4810 1420 3440 160# 1910# 500# 200# 27 50 16 3 1.4 2.2 2.7 11 30 200 70 360# 570# 28310# 23160# 17486 11984 6530 1535 −5134 −11994 −19053 −25390 −30430# −34850# ∗ ∗ ∗ ∗ 510# 300# 26 14 50 3 11 28 28 30 300# 400# 11560# 9160# 12920 9457 13640 10309 14494 10750.4 15244.9 9896 14082 10270 15300 11190# 15470# 11280# 780# 500# 100 17 50 6 3 1.5 2.3 25 12 40 40 300# 470# 640# 9840# 8110# 9920 7572 9700 7365 9548.5 7131.8 7641 3415 5181 3030 5720 2820 4990# 2330# 640# 360# 90 17 50 5 2.9 1.5 4 14 14 30 30 110 420# 640# ∗ −70# 2900# 2200 5230 4935 7829 7333.3 10246.2 7872 10548 9826 13200 12290 14990# 14060# 500# 200# 90 50 9 5 1.7 2.7 4 18 29 30 40 320# 500# Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 2890# 4858 3720 6170 4730 6948 5755.29 7924.0 6757.10 10448 9240 11580 9780 12060# 10860# ∗ 420# 27 70 100 40 7 0.25 1.5 0.30 11 30 60 60 420# 570# 12800# 10070# 11430 8510 9490 6484 7970.5 4809.6 6525.6 3315.4 4595 1410 3210 −110# 1780# −1740 590# 300# 80 90 60 8 2.4 2.2 2.6 2.7 22 60 50 300# 500# 10 25000# 19575 14020 8290 3560 −1633 −8510 −15390 −22370 −28820# −33240# −38000# ∗ ∗ ∗ ∗ 300# 13 70 90 40 8 19 60 50 300# 400# 410# 10250# 11100# 10970 11660 11800 12691 12347.2 13444.5 13018.8 12236 12026 13060 12860 13850# 13300# 14190# 500# 200# 70 90 40 7 1.4 2.2 2.7 4 22 210 80 360# 570# 720# 8490# 10280 7960 9700 7800 9771 7219.6 9545.5 5363 5859 3260 5940 3640# 5640# 2650# ∗ 500# 100 70 90 40 7 1.5 2.2 25 6 40 60 310# 470# 640# 980# 1310# 3710 3170 6370 6049 8747.7 8165.4 10943.9 8805 11712 11090 14320 13520# 15920# 15240# 670# 400# 120 90 40 9 2.1 2.6 1.8 25 20 60 50 420# 540# 640# 145 S(p) Q(d,α ) Elt. 144 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(2β − ) Q(α ) 485 Q(β − n) Q(ε p) A Elt. Z 143 I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 7270# 8260# 9337 10353 11391 12314.5 13195.2 15952 18585 19727 20458 21150 22040 23150# 24050# ∗ 450# 220# 26 16 16 2.4 1.9 3 14 9 17 200 120 360# 640# ∗ 23460# 21730# 20190 18288 16464 14713 13145.3 11522.8 9903 8297 6870 5090 3680# 2320# 620# −3750# 450# −2070# 200# −1260 90 −717 19 89 9 877 4 1733.0 1.7 520 2.8 −567 4 44 18 829 200 1720 60 2540 200# 2780# 410# 3460# 670# 3910# 640# 450# 40 25 16 3 2.6 7 8 26 17 200 60 280# 500# 780# 16030# 13490# 10516 7676 4886 2395.4 −107.8 −4484.3 −8723 −11290 −13810 −15910# −18150# −20970# ∗ ∗ 400# 200# 27 13 15 2.1 2.8 2.9 11 200 60 280# 410# 630# ∗ −20300# −19240# −15750 −14961 −11078 −10328 −6757.9 −6462.0 −857.0 −374 3470 3600 7350# 7490# 11320# 630# 400# 100 19 6 5 2.1 2.8 2.9 27 200 70 200# 500# 700# 5760# 2000# 2080 −1972 −1720 −5890.6 −5189.6 −10922 −12044 −16270 −15350 −19240# −18550# −22920# ∗ ∗ 410# 200# 24 14 15 2.4 1.4 25 6 30 30 360# 370# 540# 144 I Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 7010# 7950# 8897 10088 11000 12041 13105.6 13940.60 16407 19122 20440 20940 21450# 22770# 23870# ∗ 640# 320# 28 15 50 3 2.8 0.09 25 6 30 40 300# 360# 590# ∗ 24420# 22130# 20870 18960 17192 15299 13792.6 12206.3 10594.7 9043 7345 5630 4200 2720# 1520# ∗ 670# −2740# 400# −1420# 100 −1200 50 −270 7 409 6 1140 2.1 1905.2 2.7 849 1.8 −145 27 160 29 1270 40 2190 40 2770 420# 2860# 540# 3510# 420# 200# 60 50 9 3 1.7 7 28 40 30 60 40 850# 640# 16690# 14490# 11620 8668 5860 3316.2 665 −1781.2 −5799 −10212 −13253 −15170 −17170# −19680# ∗ ∗ 500# 300# 50 14 50 2.5 3 1.8 11 28 30 40 300# 400# ∗ ∗ −18920# −18610# −14510 −13790 −9858 −9430.1 −5636.6 −5253.5 55 475 4590 4360 7950# 8130# 5790# 2320# 400# 2594 200# −1653 50 −1350 14 −5434.8 16 −4819.5 2.1 −8858.7 2.6 −9969 1.8 −15801 11 −15460 28 −19400 30 −18120# 200 −22380# 300# −21910# 450# ∗ 540# 300# 29 20 50 2.9 2.4 2.4 3 11 200 70 200# 400# 670# 145 Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 7800# 8528 9620 10940 11630 12701 13572.32 14450.7 17277.2 19899 20840 21590 22110# 23050# 24480# ∗ 360# 26 70 90 40 7 0.25 2.0 2.4 12 200 80 200# 500# 720# ∗ 22990# 21550# 19890 17740 16023 14403.1 12778.2 11228.2 9611 7982 6220 4630 3330# 1950# 170# −2970# 400# −1960# 210# −1510 90 −930 40 200 17 881 2.1 1578.1 2.6 2322.2 1.8 1115 4 100 19 586 60 1620 210 2510 300# 2930# 450# 3200# 570# 4070# 500# 200# 120 90 40 8 1.7 2.6 4 14 21 60 50 320# 500# 640# 15320# 12930 9680 6640 4340 1642 −779.4 −3275 −7730 −12120 −14640 −16700# −18600# −21310# ∗ ∗ 310# 90 80 90 40 7 1.8 4 19 60 50 300# 400# 500# ∗ −20760# −17430# −17010 −12620 −12030 −8289.1 −7807 −4193.5 −3866 1756 2450 6180 5900# 9610# 10030# 500# 310# 90 40 50 2.6 3 1.8 4 19 60 50 300# 400# 500# 3100# 300# 3641 17 −590 90 −620 90 −4410 40 −3950 7 −8087.3 2.3 −7373.1 2.4 −13107 11 −14310 28 −18630 30 −17370 60 −21160# 300# −20350# 500# ∗ ∗ 486 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 146 Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 4640# 3630 5660 4210 6650 5150 7565.23 6257 8415 7195 11237 9960 12340 10460# 13090# 11470# 500# 70 100 110 80 60 0.09 5 3 7 19 70 50 360# 500# 570# ∗ 10810# 12230 9000 9980 6910 8588 5312 7017 3754 5384 2130 3960 570# 2820# −1127 310# 70 100 110 70 7 4 3 6 5 50 60 200# 420# 4 27010# 21090 15930 10340 5330 410 −4838 −11690 −18448 −25560# −31380# −36490# ∗ ∗ ∗ ∗ 410# 70 70 70 70 60 4 50 27 200# 300# 400# 8620# 12370# 8980 13360 9930 14430 10535.4 15004 11130 15560 10239 14700 10520 15730# 11200# 16340# 640# 310# 80 70 80 60 2.4 4 4 6 12 50 40 200# 420# 570# 7840# 9690# 7540 9680 7380 9760 7006.5 9412 6828 7265 3013 5330 2740 5620# 2430# 4940# 570# 210# 80 70 70 60 1.4 4 4 6 12 210 70 280# 500# 720# ∗ 1670# 1090# 4190 3910 7120 6327.4 9260 8652.0 11490 9076 12120 11320 14510# 13260# 16650# 410# 210# 80 70 60 2.1 4 2.9 6 5 50 200 200# 360# 570# Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 2660# 4470 3670# 5800 4420 6810 5292.20 7659 6341.5 8500 7341 11050 9710 12340# 10410# 13160# 570# 90 220# 90 70 70 0.09 4 3.0 6 4 50 30 200# 420# 500# ∗ 10640# 12270# 9140 10190 7070 8730 5405.9 7101 3838 5530 1948 3710 570 2770# −1058 400# 220# 90 80 70 60 0.9 4 4 6 12 50 40 360# 3 28770# 23440 17550# 12200 7240 2096 −2788.9 −8296 −15084 −21713 −28310# −34390# ∗ ∗ ∗ ∗ 400# 60 210# 50 30 23 2.1 12 20 28 300# 300# ∗ 10790# 10170# 11280 11670 12350 12191 13100.0 12712.5 13818.0 13346.2 12886 12400 13160 12840# 14040# 300# 210# 90 100 50 7 0.9 2.3 2.7 3.0 22 60 50 420# 500# 8190# 10120# 7540# 9780 7730 9846 7467.8 9569.3 7013.1 9285.5 5123 5870 3040 5610 3010# 5410# 640# 300# 210# 50 60 23 2.4 0.9 2.4 2.6 11 30 30 40 420# 500# ∗ 210# 2330# 2070 5390 5080 7931.5 7354.1 10127.5 9517.0 12255.3 10516 13220 12180 15180# 14480# 510# 360# 50 30 50 2.6 2.6 1.0 2.9 1.3 16 30 40 300# 420# Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 3360 5490# 4350 6430 5150 7332.8 5895 8141.41 6823 8984.1 7860 11743 10250 12670# 10980# ∗ 580 220# 80 40 30 1.6 6 0.28 10 1.3 18 22 130 360# 500# 11330# 13280 9820# 10830 7790 9248 6009 7583.2 4319 6014.3 2466 4396 1120 3100# −490# 1270# 700# 100 210# 60 40 23 6 0.4 10 2.6 14 16 130 200# 500# 670# 25230 19400 13740 8951 3772 −1137.6 −6331 −11483 −18290 −24620# −31270# −37510# ∗ ∗ ∗ ∗ 580 80 60 29 28 2.4 15 11 130 200# 400# 600# 12080# 8320 12580 9440 13860 10010 14770 10829 15410 11557 16264 10620 15250 10630# 16150# 11640# 700# 110 90 80 70 60 6 4 11 6 15 50 130 280# 500# 720# 9660# 6910 9150 7460 9430 7082 9429 6795.6 9219 6586.7 7251 2890 5140 2400# 5280# 2390# 650# 80 90 90 50 7 6 2.3 10 2.7 23 60 140 360# 570# 720# ∗ −270# 2570 2670 6100 5330 8406 7741.4 10618 10028.3 13104 10714 13510 12280# 15560# 14990# 310# 60 80 90 40 9 1.0 10 0.3 14 22 140 200# 500# 720# 148 S(p) Q(d,α ) Elt. 147 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2p) Q(α ) Q(2β − ) 487 Q(β − n) Q(ε p) A Elt. Z S(2n) 146 Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 7540# 500# 8490 80 9370 70 10370 90 11380 70 12100 60 13320.52 0.26 14181 5 15173 3 17643 12 20476 28 21540 50 22110 40 22510# 360# 23950# 500# ∗ ∗ 23610# 22300# 20430 18480 16400 15072.0 13282 11826.7 10279 8699 6730 5370 3780# 2710# 660# −3660# 510# −2320# 310# −1950 80 −1030 70 −280 80 900 2.6 1182.5 5 1908 2.9 2528.4 6 1610 4 475 50 1130 40 1980 200# 3070# 300# 2820# 500# 3770# 720# 410# 120 70 70 60 2.1 4 2.9 26 6 50 40 360# 470# 640# 16330# 13500 10680 7590 5260 2750 70.8 −2338 −4909 −9350 −13539 −16200# −17840# −20290# ∗ ∗ 410# 50 60 60 70 60 2.9 7 5 50 27 200# 300# 450# ∗ ∗ −20190# −16350 −15550 −11020 −11120 −7117 −6853.7 −3137 −2724 2940 3080 7020# 6290# 10620# 147 Xe Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 7300# 8100 9330# 10000 11070 11966 12857.44 13916.8 14757.0 15695 18578 21010 22040 22800# 23500# 24630# 500# 50 220# 100 50 24 0.12 2.3 1.9 4 19 60 50 300# 500# 500# ∗ ∗ ∗ −2800# 23080# 360# −2580# 21370 50 −1600 19190 80 −520 17050 90 307 15630 40 1035.1 13994 7 1600.6 12412.9 0.9 2310.5 10854.7 2.9 2990.3 9283.3 1.3 1735.2 7332 12 1065 5838 27 1620 4530 60 2170 3340# 300# 2850# 1760# 420# 3490# 400# 280# 50 30 28 2.1 1.6 1.0 3.0 2.0 16 200 70 360# 500# 17340# 14830 11430# 8610 6120 3593 1120.1 −1497.4 −3909.0 −6798 −11175 −14910 −17140# −19470# ∗ ∗ 450# 70 200# 40 30 23 0.9 2.3 2.2 12 20 30 300# 300# ∗ ∗ −19220# 450# −18520 90 −14320 80 −13620 70 −9770 70 −9620 60 −5630.0 0.9 −5380 5 −1650 3 −919 13 4616 20 4640 50 8220# 300# 7910# 360# 4290# 4910 450# 760 −3390 −2595 −6763 −6117.4 −10221 −9529 −15670 −16269 −20690# −19200# −23850# ∗ 410# 90 220# 80 70 23 4 2.9 6 5 50 30 200# 300# 500# 148 Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 7830 9160 10150 10860 11960 12625.0 13555 14482.9 15323 16325 18910 21448 22590# 23080# 24140# ∗ 580 110 90 70 70 1.6 7 3.0 12 4 50 29 240# 360# 570# ∗ 23920# 22090 19970 17990 16320 14740 12989.1 11421 9852 7996 6344 4820 3680# 2280# 210# 770# 310# 60 30 60 3 6 1.0 10 0.03 18 30 130 200# 500# 720# 15830 12380 9400 7023 4341 1928.8 −569 −3066.3 −5762 −8416 −12530 −16210# −18740# −21300# ∗ ∗ 580 80 50 29 26 1.9 12 1.9 17 11 130 200# 420# 630# ∗ −22040# −18400 −17080# −12970 −12670 −8706 −8479.2 −4544 −4292.7 −279 215 5450 5250# 9280# 9410# 5220# 760 830 −3010 −2450 −6436.8 −5671 −9863.0 −9011 −13595 −14424 −20093 −19040# −23360# ∗ ∗ 610# 100 70 40 26 1.8 6 2.3 10 12 24 30 330# 360# −3140# 410# −3160# 90 −2280 80 −1050 80 −60 70 599 60 1459 1.0 1986.1 11 2694 3 3271.21 15 2656 12 1475 140 1930 200# 2510# 450# 3500# 670# 4130# 3320# 3720 310# −80 70 −100 100 −4110 110 −3350 40 −7728.6 8 −6873 2.9 −11075 6 −12266 4 −18280 50 −17550 30 −21440# 200# −19950# 300# −24910# 500# ∗ 410# 80 210# 50 30 24 1.0 10 1.9 14 11 130 200# 400# 670# 400# 100 120 80 70 60 2.2 4 4 20 60 60 300# 450# 500# 488 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 149 Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 4610# 3540# 5740# 4380 6600 5038.79 7271 5871.1 8215 6929 9027 7927 11740 10160# 12840# 11220# 610# 210# 320# 100 90 0.07 7 0.9 11 3 14 14 130 200# 500# 780# ∗ 13470# 10070# 10860 7950 9139 5947 7559 4393 6120 2509 4464 1118 3020 −320# 1510# 610# 330# 110 90 26 3 6 4 11 3 16 21 130 360# 640# 27210# 20890# 15280# 10450 5390 753 −4575 −9427 −14758 −21392 −27460# −34220# ∗ ∗ ∗ ∗ 210# 200# 320# 100 80 4 5 9 19 28 300# 500# 10120# 9240# 10510# 10860 11680 11785 12791 12616.8 13536 13128 14578 13748 13210 12810 13720# 13580# 450# 200# 380# 110 90 23 4 0.9 4 4 4 14 27 40 420# 590# 9690# 7000# 9070# 7290 9480 7200 9724 7182 9419 6853 9461 4920 5730 2690# 5540# 2640# 450# 210# 320# 120 110 60 4 4 5 7 5 50 30 200# 420# 640# ∗ 830# 470# 3950 3710 6940 6290 9435.5 8660 11515 11273 14024 11730 14460 13170# 16860# 450# 320# 120 110 70 60 1.2 6 4 7 9 50 40 360# 590# Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 3190# 5180# 4310# 6200 5320 7380.1 5603 7986.7 6422 8707 7686 9673 8331 12160 10640# 13310# ∗ 360# 450# 510# 110 90 2.7 20 0.4 7 7 8 10 23 30 360# 640# ∗ 14040# 10840# 11320# 8900 9920 6511 8275 4944 6611 3266 5110 1522 3433 160# 1980# −1269.6 450# 450# 320# 100 80 20 4 6 7 8 5 17 25 200# 500# 2.8 29340# 23090# 16570# 12230 6494 2079 −2493 −7740 −12849 −17936 −24500# −30590# −37010# ∗ ∗ ∗ ∗ 300# 400# 400# 50 27 6 21 5 16 18 200# 400# 500# ∗ 7420# 11690# 9020 12800 9552 14521 10525 15256 11245 15876 11934 16622 10890 15750# 11250# 16120# 700# 410# 80 40 26 20 6 6 12 7 15 18 130 280# 570# 780# 9160# 6290# 8430# 6890 8590 6629 9413 6854.7 9339 6646 9117 6299 7104 2870 5300# 2500# ∗ 500# 400# 450# 70 40 23 20 0.9 6 6 7 12 24 30 360# 500# ∗ −1690# 630# 1420# 4190 3990 7500 6741.0 9897 9150 12086 11693 14451 12001 14870# 13970# 17070# 570# 400# 210# 50 30 30 1.2 6 6 8 4 18 26 200# 500# 590# Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 4330# 3290# 5320# 4750 6540 5334.55 7863 5596.46 7933 6497 8590 7513 9755 8504 12240# 10880# 13340# 590# 570# 570# 110 30 0.10 21 0.11 6 7 8 5 19 24 200# 500# 640# ∗ 14150# 10980# 11750# 9240 9938 6995 8268 4890.7 6687 3150 4937 1604 3607 238 2220# −1241.0 500# 570# 410# 50 26 4 20 0.5 7 7 8 12 22 11 360# 2.8 31550# 25130# 19110# 13080 7888 3242 −1766 −5824 −11027 −15929 −20848 −27210 −33430# ∗ ∗ ∗ ∗ 500# 400# 400# 100 23 4 6 4 12 17 21 300 400# ∗ 8740# 9910# 10010# 10640 10810 11696 12200 13193.6 12962 14215 13448 14794 14133 13670 13210# 14010# 450# 450# 330# 100 80 5 4 0.7 5 5 4 15 25 30 420# 640# ∗ 6350# 8590# 6490 8480 6442 8882 7153 9547.1 6972 9510 6646 9091 4610 5730# 2590# 5010# ∗ ∗ −1340# 2160 2000 5084 4782 8477.3 7859 10793.7 10319 13163.6 12555 15240 12880 15750# 14720# 700# 130 60 29 26 2.0 6 2.9 11 2.9 18 20 130 360# 570# 151 S(p) Q(d,α ) Elt. 150 S(n) Q(4β − ) A 700# 410# 120 40 26 5 6 1.0 11 4 14 16 130 200# 500# 720# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z 149 Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 7970# 9030# 10090# 10810 11740 12371.6 13166 14012.5 15039 15913 16887 19670 21990 22830# 23820# ∗ 200# 280# 320# 100 90 1.6 4 0.9 4 3 12 22 30 300# 420# ∗ 24810# 23350# 20680# 18790 16930 15194 13567.9 11977 10439 8523 6930 5514 4130 2780# 1030# Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 7800# 8730# 10050# 10580 11920 12418.9 12874 13857.8 14637 15636 16713 17600 20080 22320# 23480# 24530# ∗ 650# 410# 410# 60 40 2.7 21 0.9 12 6 16 12 130 200# 450# 720# ∗ ∗ 24310# 21390 19750 17877 15650 14221.9 12503 11005 9386 7619 5985 4551 3180# 1660# 240# Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 7520# 8480# 9640# 10950 11860 12714.7 13467 13583.2 14355 15204 16276 17186 18086 20670 22880# 24190# ∗ 540# 450# 510# 140 90 2.7 6 0.4 4 4 5 9 22 30 300# 590# ∗ ∗ 25020# 22590# 20550# 18840 16920 14779.5 13166 11630.9 9761 8203 6714 5129 3671 2380 740# 150 151 S(2n) S(2p) Q(2β − ) Q(α ) 489 Q(β − n) Q(ε p) 450# 320# 230# 100 30 23 1.2 4 3 4 9 22 30 300# 590# ∗ −3810# −3160# −1710 −490 290 1136 1870.3 2402 3099 4077.5 2787 1770 2120 2720# 3770# 360# 320# 120 120 40 8 1.2 4 3 2.2 21 60 50 420# 640# 16950# 13210# 10260# 7690 5010 2761.0 375 −2008 −4951 −7418 −9808 −13974 −17650# −20250# ∗ ∗ 370# 220# 300# 100 80 2.0 5 3 5 9 18 29 300# 500# ∗ ∗ −20780# −15970 −15220 −11279 −10829 −7017.5 −6864 −3080 −2482 1272 1563 6829 6690# 10870# 700# 100 60 29 30 1.9 8 6 13 4 20 20 240# 450# 640# ∗ −4350# −3840# −2250 −1610 −440 690 1448.8 2238 2808 3587 4351.3 3400 2300 2530# 3560# 3910# 570# 410# 90 80 70 60 1.2 7 6 5 1.5 50 30 280# 500# 640# 18070# 14230# 11270# 8870 5300 3367.7 1194 −1289 −3687 −6452 −9163 −11484 −15340# −19100# −21670# ∗ ∗ 500# 400# 400# 50 30 2.2 21 6 9 7 16 18 200# 400# 540# ∗ ∗ −20480# −18630# −14800# −14280 −9840 −9965.4 −6015 −5916 −1953 −1472 2259 2593 7790# 7720# 11810# 450# 220# 320# 100 80 2.0 4 2.8 5 4 12 19 27 300 500# ∗ −4990# −4690# −3330# −2350 −1350 −365 1144.5 1963.9 2652.2 3496 4179.5 4695.0 3497 2630 3080# 3740# 570# 400# 230# 50 30 23 1.2 1.0 2.9 4 2.6 1.8 26 30 420# 500# 19070# 15680# 12480# 9450 6624 3629.6 1264 −387.6 −3030 −5436 −7997 −10493 −12850 −16720 −20580# ∗ ∗ 640# 410# 400# 100 23 2.2 5 2.8 4 4 12 17 24 300 400# ∗ ∗ −22610# −18190# −17020# −13420 −12381 −8181.8 −8345 −4426.5 −4121 −279 189 3762 3877 9000 9120# 660# 130 100 29 26 2.0 7 3 11 9 23 30 330# 540# 6100# 1570# 1520# −2240 −1710 −5580 −4800 −8911 −8242 −12664 −11708 −17770 −18110# −22540# −21760# ∗ 210# 200# 320# 100 80 6 4 10 4 14 11 130 200# 400# 670# 450# 200# 320# 100 80 1.9 7 6 8 5 15 19 200# 400# 590# 6450# 2130# 1590# −1840 −1994 −5690 −4533 −8682 −7735 −12344 −11467 −15700 −16280 −21860# −21190# ∗ ∗ 360# 510# 410# 90 26 4 20 4 7 7 11 19 30 300# 540# 500# 410# 400# 50 26 2.2 20 2.8 7 7 14 17 17 300 450# 7310# 3140# 2470# −1270 −1152 −5421 −4409 −7857 −6962 −11156 −10384 −14882 −13871 −19730# −20120# −24680# ∗ 640# 570# 400# 110 23 20 5 6 6 8 6 15 21 200# 400# 590# 490 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 152 Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 4850# 3850# 5680# 5110 7276 5938 8257.6 6306.72 8591 7170 9437 8047 10306 9060 12830 11290# 640# 570# 220# 120 24 26 0.6 0.10 3 40 5 18 20 80 370 450# 14670# 11540# 12110# 9600 10680 7598 8663 5601.0 7344.1 3820 5784 2139 4157 790 2810 −830# 710# 570# 450# 160 30 26 5 0.5 1.2 40 6 14 16 80 210 360# 27560# 21190# 15660# 9090 4556 −540 −4644 −9286 −14214 −18950 −23820 −30190# ∗ ∗ ∗ ∗ 500# 400# 200# 120 25 50 5 14 11 80 210 200# 7080# 11240# 8630# 11730 8860 13138 9545 14873.6 10794 15760 11697 16419 12159 16770 11020# 16020# 590# 570# 450# 130 40 26 20 0.6 6 40 9 15 18 80 290# 450# 6110# 8280# 6550# 7750 5760 7983 6167 9111.5 6596 9270 6236 8971 6052 6840 2600# 4940# 540# 450# 370# 160 90 26 4 0.7 4 40 5 16 21 80 360# 540# ∗ −580# 20# 2630# 2180 5440 5258.5 8823 8074.1 11370 10655 13534 12861 15560 13080 16270# 450# 280# 340# 100 90 2.0 4 1.3 40 5 15 14 80 210 360# Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 3100# 4930# 4310# 5890 5260 7494 5868.40 8550.29 6246.94 8670 7097 9482 8059 10320 8830# 13060# ∗ 950# 720# 450# 160 40 28 0.13 0.12 0.13 40 6 15 14 80 290# 290# ∗ 11620# 12570# 9810# 10830 7816 8593 5893.7 7284.3 3895 5710 2184 4169 804 2580# −609 1170# 780# 570# 220# 130 27 26 0.7 1.2 4 40 7 16 21 210# 10 540# 29730# 23760# 17220# 11740 5541 636 −3416 −8354 −12402 −17305 −22090# −26610 −33190# ∗ ∗ ∗ ∗ 800# 600# 400# 100 27 12 4 5 9 19 200# 210 500# 8310# 9600# 9650# 10580 10130 10979 11540 11919.8 12480.1 13585 13191 14450 13855 14961 14430# 13850 13610# 950# 720# 570# 150 40 11 5 0.6 1.2 5 6 6 15 25 200# 370 640# 6210# 8530# 6550# 8060 5820 7869 5902 8547.9 6771 9313 6825 9162 6324 8682 4420# 5190# 2500# 860# 720# 570# 110 40 11 20 0.6 6 7 8 6 17 25 280# 450# 710# ∗ −2320# 900# 1050# 3120 3265 6770.2 5876 9813.9 9123 12265 11738 14475 13579 16420# 13850# 17080# 670# 570# 410# 50 28 2.3 20 1.2 7 7 9 10 23 200# 290# 640# La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 3530# 5430# 4640 6410 5890 7967.1 6442.23 8894.71 6910 9320 7696 10196 8485 10950# 9230# 13500# 840# 640# 180 120 50 0.9 0.24 0.17 50 8 10 10 23 200# 290# 710# 12050# 13060# 10140# 11350 8440 9066 6467.5 7628.7 4560 6367 2783 4882 1230 3207 −200 1610# 1000# 780# 430# 150 50 11 0.8 1.1 50 8 9 7 17 25 50 550# 26120# 19760# 13540 8020 1660 −2063 −7100 −11101 −15730 −20464 −25080# −29880# ∗ ∗ ∗ ∗ 600# 500# 150 110 60 8 8 5 50 19 200# 500# 10930# 8080# 11620# 8830 12370 9511 13735.2 9892.1 15260 11040 16191 11707 16782 12550 17450# 11400# 780# 640# 250# 170 50 26 0.7 1.2 50 40 9 15 18 80 290# 540# 8300# 6450# 8160 5940 7320 5798 7702.2 5809.9 8900 6095 8978 5884 8701 5712 6840# 2330# 720# 640# 180 120 40 5 0.6 1.2 50 8 9 13 22 11 360# 640# −1520# −1240# 1730# 1460 3920 4137.7 7297 6515.7 10140 9443 12632 11793 14849 13979 16860# 14460# 780# 640# 430# 150 50 2.4 5 1.2 50 8 9 6 19 24 200# 590# 154 S(p) Q(d,α ) Elt. 153 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(2β − ) Q(α ) 491 Q(β − n) Q(ε p) A Elt. Z 152 Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 8140# 9180# 10430# 11650 12611 13800 13854.1 14240 15088 15760 16950 17803 18810 21300# 23720# 24630# 640# 570# 200# 130 24 30 0.6 6 6 40 6 20 20 210# 450# 540# ∗ 25680# 23090# 21350# 19910 17540 15657.0 13869 12234.8 10500 8934 7076 5761 4400 3050 1390# 500# 450# 420# 50 40 2.3 20 1.2 40 8 16 12 70 210 280# ∗ −5190# −3520# −3100 −2190 −1160 219.7 1552 2203.0 3150 3726 4507.3 4934.4 3820 2920# 3430# 16520# 700# 13740# 210# 11050# 140 7450 40 4611 40 1632 2.0 −54.6 6 −2170 1.4 −4590 40 −7120 4 −9624 1.3 −11840 1.6 −14190 150 −18350# 290# ∗ 450# ∗ 540# 420# 200# 120 25 26 1.2 40 5 40 12 70 210 210# ∗ −22140# −20580# −16810# −15950 −11780 −11104.8 −6788 −7420.7 −3350 −3219 732 969 4570 4670 10070# 640# 450# 420# 110 30 2.3 5 1.2 40 6 15 11 70 210 200# 3620# 3360# −410# −930 −4834 −4751 −8181.0 −6770.9 −11156 −10040 −14564 −13414 −17790 −18300 −24180# ∗ 640# 410# 200# 120 25 26 0.7 2.8 4 40 13 22 23 310 450# 153 Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 7950# 8780# 9990# 11000 12538 13432 14126.0 14857.01 14838 15833 16534 17530 18365 19376 21660# 24350# ∗ 900# 720# 410# 110 27 12 0.6 0.16 3 6 5 13 19 27 360# 450# ∗ 26290# 24110# 21920# 20430 18492 16190.9 14556 12885.3 11239 9533 7968 6307 4961 3370# 2200 340# 780# 570# 410# 110 25 2.3 5 1.2 4 5 6 9 22 200# 210 590# ∗ −5510# −4290# −3260# −3080 −2050 −609.9 273 1827.2 2701 3559 4052 4802.3 5248.1 4260# 3210# 3770# 630# 450# 330# 100 80 2.0 4 1.3 5 4 4 1.4 1.5 200# 360# 710# 17730# 14700# 12000# 9060 5217 2689 324.0 −2053 −3740 −6301 −8662 −11004 −13430# −15610 −19760# ∗ ∗ 900# 610# 400# 100 27 11 1.2 4 4 6 10 19 200# 210 540# ∗ ∗ −20040# −18850# −15530# −14170 −9697 −9400 −5410.0 −5715 −1725 −1580 2348 2304 6150# 6070 11720# 4370# 4110# 640# 390# 410# 460 200# −4160 120 −3987 25 −7742.7 26 −6730.6 1.2 −10240 4 −9267 4 −13613 40 −12591 10 −16790 23 −15780 200# −21710# 200 ∗ 540# ∗ 900# 630# 420# 110 40 11 0.7 1.2 40 6 15 12 70 210 280# 154 La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 8460# 9730# 10540 11680 13380 13835.5 14992.52 15141.65 15580 16416 17179 18255 18800 19770 22290# ∗ 720# 540# 190 120 50 0.9 0.27 0.21 60 9 16 12 70 210 280# ∗ 24690# 22710# 21160# 19270 16881 15060 13522.4 11850 10262 8500 7066 5399 4012 2380# 1010# 710# 430# 230# 130 25 26 1.2 50 8 40 6 20 20 220# 540# −5840# −4530# −3590# −3290 −2620 −1196.8 −566 919.2 2210 2946 4041 4279.9 5093.8 5474.2 4620# 3570# 670# 640# 430# 120 50 2.4 20 1.2 50 5 4 2.6 2.6 1.7 280# 640# 15820# 12990# 10300 6770 3250 1251.6 −1580 −3315 −5520 −7786 −10215 −12678 −14860# −17200# ∗ ∗ 620# 520# 160 110 40 1.3 50 8 50 9 17 18 200# 500# ∗ −22370# −18560# −17630# −14160 −12402 −8349 −8436.3 −4080 −4797 −613 −751 3301 3265 7160# 7040# 950# 620# 420# 110 27 11 1.2 50 8 9 6 15 19 200# 540# 4900# 850# 1080 −3080 −4000 −7159.4 −6925.9 −10464 −9080 −13450 −12228 −16668 −15440# −19600 −20340# ∗ 720# 510# 150 110 40 1.1 1.2 4 50 9 12 19 200# 210 540# 492 A Elt. G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Z S(n) 155 La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta 57 4490# 1000# ∗ 58 3770# 780# 13310# 59 5650# 330# 10360# 60 4850# 190# 11560# 61 6550 50 8570 62 5806.96 0.27 8990 63 8151.4 0.4 6651.8 64 6435.22 0.18 7621.7 65 9160 50 4830 66 6833 14 6290 67 9467 20 2930 68 7675 8 4860 69 10277 19 1312 70 8641 24 3363 71 11060# 200# −91 72 9440# 640# 1820# 73 ∗ −1776 156 Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 157 Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta 58 3340# 59 5130# 60 4330# 61 6220 62 5430 63 7446 64 6359.80 65 8744 66 6969 67 9550 68 7280 69 9940 70 8249 71 10800 72 8970# 73 11900# 5070# 4210# 6130# 5320 7244 6340 8536.39 6914 9441 7390 10069 8276 10832 9270 11820# 10200# Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) ∗ −160# −60# 2290# 2480 5607 5084 8338.0 7286 11201 10330 13555 12619 15643 14860 17850# 15400# 840# 590# 220# 120 40 1.1 1.1 12 50 19 10 14 22 10 450# 10 28180# 21800# 16050# 9600# 4280 −1037 −5785 −9862 −14619 −18656 −23486 −28110# −32970# ∗ ∗ ∗ ∗ 800# 600# 300# 150# 30 12 18 6 18 20 27 400# 500# 9540# 1130# 9240# 840# 10280# 500# 9870# 190# 11090 40 11198 11 11452.2 0.9 12007.2 1.2 12346 12 12871 12 13821 18 13515 8 14563 16 14223 25 15220# 200# 15020# 450# 14350# 710# 8670# 6530# 8200# 6200# 8050 5929 7808.4 5681.4 8324 6430 8949 6257 8729 6130 8620 4180# ∗ 950# 720# 360# 200# 40 26 0.8 1.2 12 40 19 15 17 80 210 450# 840# 13890# 1000# 500# 10800# 720# 250# 12040# 360# 50 9040# 160# 9 9690 30 5 7185 5 0.07 8006.7 1.2 12 5309 4 10 6564 10 50 3480 50 25 5460 30 21 1913 17 20 3918 17 80 540 80 450# 2590 210 640# −1014 5 23970# 18180# 12010 5880 1160 −4740 −8329 −13258 −17265 −21600 −26360 −31040# ∗ ∗ ∗ ∗ 600# 400# 200 30 11 50 25 16 13 90 210 400# 7690# 11500# 8380 12180 9840 13080 9913.0 14327 10340 15750 11142 16483 11876 16890 12430# 17640# 840# 640# 250 120 50 5 1.2 4 50 50 26 17 18 80 290# 640# 6390# 8300# 5960 7990 6178 7337 5695.3 7656 5654 8660 5671 8512 5615 8170# 5420 6370# 840# −2130# 1000# 570# 660# 720# 230 470# 450# 40 3050 110 14 3625 29 5 6238 12 1.2 5670.1 1.2 4 8922 4 7 8006 6 40 11610 40 25 10583 25 18 13826 17 22 12870 14 210# 15910 80 9 14850# 290# 640# 18260# 450# ∗ 10860# 12170# 9130 9800 7386 8027 5517.4 6619 3588 5350 1790 3891 508 2290# −935 26060# 20500# 14040# 8400 2690 −2638 −7411 −12061 −15986 −20350 −24670# −29080 ∗ ∗ ∗ ∗ 700# 400# 200# 110 50 25 28 28 12 30 200# 210 8840# 1060# 10140# 720# 9700# 360# 10810# 190# 10950 60 11441 5 11704.6 1.2 12017.3 0.3 12537 12 13042 27 13330 30 14217 29 13904 16 14731 25 14510# 200# 15180# 450# 6580# 8600# 6270# 8180 6630 7858 5777.8 7806.6 5600 8433 6088 8767 5851 8315 5680 7970# 920# 640# 250# 160 70 5 1.2 0.4 50 26 29 28 18 25 50 550# 920# 570# 280# 120 50 7 0.15 4 6 50 40 30 15 80 290# 450# 720# 450# 230 60 10 5 0.3 7 25 50 40 19 22 210# 10 ∗ −940# 1560# 1470 4600 4680 7277.3 6620.2 9932 8980 12625 11581 14817 13593 16830# 15590# 780# 500# 250# 130 25 26 1.2 12 12 40 7 19 20 80 450# 540# 720# 540# 190 120 40 1.3 1.2 6 50 29 29 11 24 200# 290# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(2β − ) Q(α ) 493 Q(β − n) Q(ε p) A Elt. Z S(2n) S(2p) 155 La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 8010# 1000# 9190# 720# 10290# 320# 11270# 160# 12430 30 13774.0 0.9 14593.6 0.5 15329.93 0.25 16077 13 16153 12 17163 19 17870 11 18763 23 19590# 200# 20290 210 22940# 640# ∗ ∗ 25360# 1000# 23430# 670# 21700# 430# 19920 110 17427 27 15718 11 14089.2 1.2 12459 12 10848 12 9297 18 7644 7 6194 14 4593 19 3117 27 1620# 450# −160# 550# −6000# −5010# −3920# −3400# −2630 −1669.3 −854 80.4 980 2610 3165 4118 4572 5337.6 5802.7 5020# 4110# 950# 720# 500# 180# 40 2.4 5 1.2 12 12 18 5 5 2.3 2.6 500# 640# 16980# 14070# 11200# 7720# 4850 1879.9 −570 −2917 −5215 −6944 −9404 −11712 −14081 −16400# −18890# ∗ ∗ 860# 620# 300# 150# 30 1.3 12 12 22 13 22 18 24 400# 500# ∗ ∗ −20680# −17060# −16060 −11790 −10620 −6904.5 −6799 −2736 −3170 894 720 4820 4586 8540# 8610# 5840# 1730# 670# 1840# 530# −2050# 150 −2580 110 −6524.2 40 −6182.6 1.3 −9990 12 −8928 12 −12587 50 −11499 10 −15858 15 −14773 18 −19010# 17 −17890# 400# ∗ 540# ∗ 950# 620# 320# 160# 30 1.1 1.2 50 14 14 19 16 22 200# 500# 156 Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 8840# 9850# 10980 11860 13051 14491 14971.61 16080 16274 16850 17743 18553 19473 20330# 21260# ∗ 780# 430# 230 60 9 5 0.19 50 10 50 25 21 21 220# 540# ∗ 24110# 22400# 20600 18260 16170 14658.5 12931 11395 9770 8393 6774 5230 3900 2500 810# 720# 540# 160 110 50 1.3 4 6 60 26 18 13 80 210 450# −5230# −4270# −3840# −2840 −1637 −1255 −198.3 372 1759 2940 3487 4344 4811 5596 6028 5200# 780# 570# 280# 130 26 26 1.2 4 6 60 25 7 4 3 4 450# 15130# 12310# 8840 5870 3172 5 −2012 −4740 −6317 −8510 −10948 −13090 −15410 −17950# ∗ ∗ 630# 400# 200 30 9 6 6 40 25 50 27 80 210 410# ∗ −20400# −19420# −15730# −14190# −10410 −9633.9 −5562 −5742 −1390 −2342 1911 1662 5600 5360 9470# 900# 630# 300# 150# 30 1.3 4 6 50 27 24 13 70 210 400# 2310# 2490# −1630 −2090 −5617 −6087 −9359 −9009 −12561 −11210 −15649 −14408 −18782 −17720# −22260# ∗ 670# 430# 210 30 9 5 12 12 19 50 28 23 23 410# 550# 157 Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 8410# 9330# 10460# 11540 12680 13786 14896.19 15659 16411 16930 17347 18220 19081 20072 20800# 22100# 920# 500# 250# 120 50 5 0.16 12 12 30 29 30 19 27 450# 550# ∗ 24750# 22970# 21170# 18840# 17070 15211.4 13524.1 11929 10152 8840 7250 5804 4426 2830# 1650 900# 630# 320# 160# 30 1.3 1.2 6 27 30 30 12 23 200# 210 −5470# 1060# 16120# −4470# 720# 13410# −3870# 450# 9940# −3170 150 7090 −1810 60 4100 −1208 12 1303 −689.7 1.2 −1403 177.9 1.2 −3942 1037 6 −6008 2066 25 −8120 3305 28 −9978 3885 28 −12230 4621 6 −14690# 5107.3 2.9 −16850 5880 3 ∗ 6355 6 ∗ 730# 420# 200# 110 50 5 6 25 29 40 30 30 200# 210 ∗ ∗ −18680# −17750# −13490 −12540 −8749 −7967 −4175 −4020 −179 −640 3482 3068 7220# 6830 630# 420# 210 30 9 5 6 25 29 50 26 24 200# 200 3170# 3490# −640# −1070 −4710 −4997 −8804 −8312 −12140 −10690 −14650 −13520 −17760 −16700 −21030# ∗ 810# 450# 200# 110 50 5 4 6 50 30 30 30 70 210 450# 494 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(p) Q(d,α ) Q(p,α ) Q(n,α ) Elt. Z 158 Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 3830# 5680# 4790 6550 5820 7937.39 6777.9 9056 7430 9960 8070 10644 8803 11420# 9460# ∗ 720# 450# 170 90 80 0.06 1.0 6 40 40 40 12 24 200# 290# 11350# 12720# 9590# 10130 7770 8518 5935.5 6930.5 4052 5760 2570 4595 1062 2910 −450 1360# 920# 570# 230# 140 90 5 0.9 2.6 28 40 40 29 18 26 50 550# 22480# 16300# 10380 5200 −1020 −5393 −10774 −14397 −18980 −23200 −27680# −32320# ∗ ∗ ∗ ∗ 600# 400# 130 80 80 25 25 8 30 30 200# 500# 11380# 8220# 12150 9720 12870 10107 13775.8 10396 15050 10760 16220 11536 16761 12360 17540# 12820# 840# 570# 240 90 80 5 1.0 4 28 50 40 18 19 80 290# 640# 8530# 6240# 8250# 6620 7850 5991.8 7464.0 5706 7833 5600 8376 5485 8153 5314 7950# 4837 840# 500# 200# 80 80 1.2 1.0 12 29 30 26 15 22 10 450# 10 −290# −350# 2330# 2910# 5410 5146.9 7993.7 7311.4 10710 9503 12980 11847 15067 14046 17180# 16050# 1000# 720# 320# 170# 80 1.3 1.5 2.6 29 28 30 10 20 24 200# 640# 159 Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 4790# 3890# 5830# 5070 6910 5943.09 8133.1 6832.7 9216 7335 9940 7899 10570 8821 11500# 9600# 920# 640# 230# 130 80 0.12 0.6 2.7 27 26 40 19 40 24 200# 640# ∗ 12780# 9740# 10410 8130 8650 6131.3 6985.2 4213 5665 2560 4430 990 2928 −367 1500# 780# 450# 160 80 80 0.7 1.3 4 27 40 30 40 23 11 450# 24600# 18350# 12690# 6960 1283 −4001 −8969 −13331 −17620 −21714 −26120 −30620# ∗ ∗ ∗ ∗ 700# 500# 200# 100 8 4 28 18 40 17 30 400# 9930# 9460# 10660# 10870 11390 11610 12002.4 12308.0 12803 12972 13560 13580 14440 14340 15020# 15110# 990# 640# 280# 150 50 5 0.7 1.4 7 25 40 30 40 25 200# 450# 8810# 6560# 8550# 6870 8181 6388 7867.2 5788 8058 5650 8510 5861 8410 5760 8270 5437 920# 640# 280# 110 12 5 0.8 4 7 40 40 24 40 80 210 6 ∗ 830# 710# 3960 3810 6448 6200 9015.1 8408 11609 10430 14020 12770 16057 14950 18270# 780# 450# 230 30 9 5 1.3 5 7 50 30 40 20 80 450# Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 5280# 4330# 6280# 5390# 7451.4 6375.21 8575.9 7124 9562 7800 10398 8630 11155 9500 12210# ∗ 780# 360# 220# 200# 0.7 0.13 1.5 15 25 40 23 70 20 90 450# 13260# 10180# 10860# 8440# 9184 6563.4 7428.0 4504 6012 3020 4890 1720 3510 310 2200 −1278 920# 590# 280# 220# 7 0.8 1.2 15 25 30 30 60 40 90 210 8 20530# 14740# 9260# 3020# −1890 −7540 −11508 −16120 −20121 −24430 −28810 −33610# ∗ ∗ ∗ ∗ 600# 300# 200# 200# 25 30 17 60 27 100 210 410# 8020# 12010# 9390# 12560# 9970 13564.6 10510.0 14735 10840 15710 11240 16460 11988 16940 12370# 17750# 840# 500# 230# 220# 80 0.8 1.4 15 40 40 30 60 19 90 290# 640# 6410# 8550# 6820# 8230# 6383 7851.8 5956.6 7904 5630 7980 5400 8040 5410 7740# 5131 ∗ 720# 360# 230# 210# 5 0.8 1.3 16 30 40 30 60 22 220# 9 −1110# 1510# 2020# 4650# 4430 7271 6799.0 10029 9016 12170 10900 14090 13151 16250 15040# 18620# 920# 500# 280# 230# 50 5 1.2 15 25 40 30 60 15 90 290# 450# 160 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(2β − ) Q(α ) 495 Q(β − n) Q(ε p) A Elt. Z 158 Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 8960# 10010# 11020 11980 13260 14297.19 15522 16025 16980 17230 18006 18893 19610 20390 21360# ∗ 720# 450# 130 80 80 0.16 4 6 50 40 30 14 80 210 450# ∗ 23580# 21760# 19260 17570 15904 13962 12447.9 10671 9352 7930 6380 4952 3418 1850# 420# 720# 420# 220 80 9 5 2.6 27 26 50 26 22 21 220# 540# −4770# −4120# −3320 −1950 −1140 −660.1 −157.8 876.2 1550 2669 3516 4172 4790 5404.7 6124 6613 840# 640# 200 140 90 1.3 1.5 2.6 50 26 27 7 5 2.7 4 3 14360# 10810# 8120 5480 2270 −284.6 −3286 −5108 −7490 −9289 −11489 −13911 −16200# −18410# ∗ ∗ 610# 410# 100 80 80 2.5 27 25 40 27 29 19 200# 500# ∗ −21020# −17410# −15710# −12130 −11250 −7299 −6870.4 −2709 −3165 840 116 4210 4049 8180# 7770# 810# 420# 210# 140 50 5 2.5 27 26 40 29 30 20 200# 540# 3990# −100# −430 −3820 −4450 −7997.4 −8121 −11654 −10840 −14670 −13333 −17603 −16530# −20550 ∗ ∗ 630# 420# 140 80 80 0.3 6 25 40 40 27 20 200# 210 159 Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 8630# 9570# 10620# 11620 12729 13880.48 14911.1 15888 16650 17290 18000 18544 19370 20240# 20960 ∗ 810# 540# 230# 110 5 0.14 0.8 6 25 28 40 20 40 200# 210 ∗ 24130# 22460# 20000# 18260 16410 14650 12920.7 11143 9717 8320 7000 5580 3990 2543 1050# 860# 450# 220# 110 50 5 1.3 3 7 40 30 50 20 28 450# −5080# 1060# −4240# 780# −3500# 360# −2170# 180# −1500 30 −796.2 1.3 −139.5 1.4 478.7 1.3 1494 12 2168 12 3040 30 3948 19 4500 40 5225.0 2.7 5681 6 6450 4 15400# 12000# 9200# 6360 3486 605.0 −2203.2 −4606 −6765 −8724 −10860 −12989 −15270 −17630# ∗ ∗ 730# 510# 200# 100 7 1.3 2.9 3 28 19 50 25 40 400# ∗ ∗ −19410# −15100# −14250 −10640 −9620 −5765.7 −5147.6 −1444 −1670 2170 1700 5872 5477 9590# 4880# 810# 630# 290# 410# −3070 130 −3428 80 −7162.6 80 −7198.3 1.3 −11054 3.0 −10103 4 −13935 40 −12627 30 −16700 50 −15680 19 −19910# 18 −18830# 400# ∗ 810# 520# 210# 130 7 0.9 2.5 27 26 26 29 24 40 200# 500# 160 Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 9170# 10150# 11350# 12300# 13394.5 14508.4 15408.6 16340 16900 17740 18297 19200 19976 21000# 21810# ∗ 720# 320# 210# 210# 0.7 0.6 2.3 30 40 40 18 60 21 220# 550# ∗ 22950# 20600# 18850# 17310 15210 13559.3 11489 10224 8690 7440 6140 4500 3240 1840 220# 670# 450# 240# 80 80 1.2 15 25 40 30 60 14 90 210 450# −4450# −3620# −2310# −1570# −1003 −175 439.2 1285 2046 2630 3618 4140 4902.4 5450 6065 6715 12990# 10260# 7530# 4470# 1729.4 −1455 −3620 −6090 −7889 −10030 −12232 −14390 −16580 −19220# ∗ ∗ 630# 360# 200# 200# 1.3 15 25 40 29 70 20 110 210 410# ∗ −18940# −17490# −13810# −13020 −9079 −8398.5 −4138 −4174 −260 −891 3010 2617 6550 6200 10500# 760# 540# 280# 100 7 1.2 15 25 30 17 60 22 100 210 400# 1360# 1040# −2440# −2870# −6480.9 −6740.8 −10414 −9892 −13560 −12530 −16530 −15490 −19560 −18720# ∗ ∗ 630# 310# 200# 200# 1.0 1.2 3 15 40 40 40 60 24 410# 840# 500# 280# 200# 9 5 1.2 15 25 60 29 60 2.6 50 5 10 496 A Elt. G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Z S(n) Q(4β − ) S(p) 161 Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re 60 3610# 61 5400# 62 4630# 63 6480# 64 5635.4 65 7696.6 66 6454.39 67 8886 68 7222 69 9670 70 7746 71 10360 72 8453 73 10930# 74 9120# 75 12290# 920# ∗ 590# 10300# 360# 11160# 360# 8650# 1.0 9430# 0.5 6808.5 0.08 7507.2 15 4813.7 26 6110 40 3130 22 4830 60 1680 25 3340 110# 90# 290# 1820# 450# −1197 162 Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os 61 3950# 62 5850# 63 4940# 64 6846 65 6280 66 8196.99 67 6916 68 9205 69 7660 70 10059 71 8350 72 10926 73 9120# 74 11670# 75 9550# 76 ∗ 860# 590# 420# 4 40 0.06 4 9 40 21 80 24 80# 200# 290# 163 Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os 61 4910# 1060# 62 4220# 860# 63 6050# 590# 64 5270# 300# 65 6990 40 66 6271.01 0.05 67 8408 3 68 6903 5 69 9323 27 70 7544 21 71 10030 80 72 8184 30 73 10830 60 74 8980 60 75 11720# 200# 76 9690# 650# Q(d,α ) Q(p,α ) Q(n,α ) 780# 420# 360# 200# 1.0 1.3 2.2 18 40 40 30 60 50# 220# 5 22550# 17040# 11080# 5430# −304 −5569 −10217 −14640 −18890 −23170# −27440# −31690 ∗ ∗ ∗ ∗ 700# 500# 300# 300# 9 28 16 28 24 60# 200# 210 9200# 10500# 10580# 11150# 11251 11811.1 12188.7 12681.4 12838 13379 13440 13990 14110 14830# 14750# 15060# 990# 710# 360# 310# 7 0.9 1.2 2.6 10 28 30 30 40 60# 200# 450# 6630# 8830# 6980# 8300# 6560 8092.6 6280.1 8073 5846 8270 5723 8317 5760 8230# 5480 7680# 920# 640# 320# 310# 80 0.9 1.4 3 29 40 30 29 27 60# 50 550# ∗ −50# 3070# 2960# 5350 5390 8282.0 7920.8 10850 9940 13106 11790 15343 14130# 17340# 15790# 780# 500# 320# 80 80 1.2 2.5 9 40 30 40 24 60# 200# 290# 10630# 11610# 8960# 9800# 7460 8007.6 5275 6429 3564 5220 2280 3900 750 2560# −760 920# 990# 710# 420# 300# 40 1.3 3 3 27 30 80 30 60 60# 50 550# 19380# 13430# 7400# 2055 −4200 −8355 −13210 −17170 −21700 −25830 −30480# −34670# ∗ ∗ ∗ ∗ 700# 500# 300# 5 40 16 80 10 60 24 220# 500# 11830# 9060# 12480# 9790# 12980 10366.9 14342 10756 15290 11180 16040 11810 16870 12580 17720# 12870# 920# 590# 360# 200# 40 1.3 3 15 40 40 80 60 50 90 290# 640# 8780# 6960# 8430# 6630 7750 6216.3 7990 5857 7948 5600 7870 5410 7940 5310 7740# ∗ 860# 540# 310# 8 40 1.2 3 4 26 30 80 40 50 10 450# 790# 1110# 3850# 3570 6020 6028.1 9138 8477.3 11499 10382 13380 12316 15580 14498 17740# 16370# 990# 710# 360# 100 40 1.2 3 2.9 26 16 80 20 60 24 200# 640# ∗ 11880# 9160# 10130# 7603 7990 5486.11 6416 3681 5110 2250 3740 660 2420 −706 1060# 990# 710# 420# 6 40 0.05 6 6 30 30 80 40 70 9 450# 21460# 15490# 9760# 3690# −1866 −7082 −11593 −15888 −20190 −24400 −28780 −33160# ∗ ∗ ∗ ∗ 800# 700# 500# 300# 7 16 28 28 40 60 30 410# 10530# 1060# 10250# 860# 11070# 590# 11000# 420# 11622 4 11792.5 1.3 12388.00 0.08 12740 5 13185 10 13310 30 13760 30 13990 40 14490 40 14540# 80# 15110# 200# 15460# 450# ∗ 2170# 2130# 4580# 4410# 7208.5 7105.4 10150 9299 12401 11160 14530 13380 16670 15520 18880# 920# 590# 360# 200# 1.3 1.3 5 16 29 40 30 70 50 90 450# 9140# 1000# 7070# 760# 8660# 540# 6750# 360# 8211 4 6320.5 1.3 8158.18 0.11 6078 16 8187 25 5860 40 8240 30 5850 60 8260 40 5830 100 8220 210 5400 50 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(2β − ) Q(α ) 497 Q(β − n) Q(ε p) A Elt. Z 161 Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 8890# 9730# 10910# 11870# 13086.8 14071.8 15030.3 16010 16784 17470 18144 18990 19608 20430# 21320# ∗ 860# 540# 310# 300# 1.2 0.6 1.5 4 10 40 23 50 28 60# 450# ∗ 23560# 21340# 19510# 17880 15993 14070.6 12241.7 10613 9141 7855 6570 5054 3600# 2130# 1010 860# 590# 360# 100 7 1.2 2.5 9 28 16 40 29 70# 200# 210 −4720# −3890# −2610# −1830# −1200 −426 344.6 1142.9 1794 2510 3150 3720 4698 5320# 5923 6328 990# 640# 360# 320# 50 5 1.2 2.5 11 40 30 40 24 60# 4 7 14020# 11350# 8530# 5690# 2548.4 −265.3 −2852 −5304 −7365 −9340 −11526 −13830# −15910# −17860# ∗ ∗ 760# 590# 300# 300# 1.6 2.5 9 28 18 40 28 60# 200# 220# ∗ ∗ −16850# −15960# −12390# −11390# −7401.5 −6648.9 −2820 −2800 925 450 4562 4250# 8240# 7710 2070# 1910# 670# −1680# 420# −1900# 200# −5741.1 200# −5861.4 1.3 −9744 2.5 −9216 9 −12980 30 −11800 29 −15650 40 −14700 28 −18510 80# −17440# 200# −21820# 200 ∗ 760# 540# 360# 300# 1.4 1.3 15 25 40 30 60 30 90 220# 450# 162 Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 9340# 10480# 11420# 12481 13980 14651.38 15802 16427 17320 17805 18710 19379 20050 20780 21840# ∗ 760# 540# 360# 4 40 0.10 15 25 40 22 90 15 100 210 450# ∗ 21910# 20120# 18450# 16890# 14816.1 12782 11242.5 9670 8351 7110 5581 4090 2643 1060# −280# −4000# 780# −2780# 420# −1980# 200# −1500 200# −890 1.3 85.0 3 1005 2.7 1645 30 2280 29 3047 80 3440 18 4417 80 5010 21 5677.3 220# 6240 550# 6767 920# 640# 320# 80 90 1.2 3 3 40 30 80 5 50 2.7 5 3 12340# 9530# 7030# 3900 370 −1844.2 −4564 −6511 −8650 −10658 −13050 −15171 −17430# −19500# ∗ ∗ 760# 500# 300# 4 40 2.7 26 16 80 18 90 20 210# 500# ∗ −19080# −15510# −14600# −11190# −9963.1 −5868 −5570.5 −1570 −1912 1770 1382 5490 5028 9090# 8620# 860# 590# 300# 300# 1.6 3 2.7 26 18 80 18 60 29 210# 540# 2600# −1050# −1210# −4890 −5690 −9055.3 −8909 −12515 −11710 −15340 −14590 −18510# −17450# −21200 ∗ ∗ 760# 590# 300# 4 40 2.2 10 28 30 30 80 60# 200# 210 163 Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 8860# 10060# 10990# 12120# 13276 14468.00 15323.7 16108 16979 17603 18370 19110 19950# 20650# 21270 ∗ 950# 760# 590# 300# 4 0.08 2.2 10 29 21 40 40 70# 200# 210 ∗ 22510# 20770# 19090# 17400# 15451.7 13493.7 11691 10110 8673 7470 6020 4560 3170 1850# 300# −4120# 1060# 990# −3110# 860# 710# −2200# 540# 420# −1700# 310# 300# −973 8 1.6 −242.9 1.2 1.3 730.2 1.3 5 1574 5 6 2176 6 18 2838 16 40 3350 40 30 4130 30 50 4749 5 60 5520 50 60# 6017 7 450# 6680 50 13480# 10590# 7980# 4900# 1783 −1212 −3649 −5870 −7944 −10020 −12250 −14380 −16530 −18790# ∗ ∗ 950# 760# 500# 300# 4 5 6 17 29 30 50 60 40 410# ∗ ∗ −17610# −14020# −13240# −9388 −7990 −4276 −3977 −251 −600 3260 3010 6980 6490 10590# 860# 590# 300# 4 40 5 6 16 40 30 80 50 50 400# 3540# −320# −410# −3880# −4486 −8411 −8112.6 −11762 −10975 −14540 −13690 −17580 −16610 −20630# −19580# ∗ 950# 760# 500# 300# 4 3 2.7 27 17 80 30 60 40 210# 500# 498 A Elt. G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Z S(n) S(p) Q(4β − ) Q(d,α ) Q(p,α ) 950# 670# 500# 100 1.3 1.4 2.8 29 30 30 30 40 50# 250# 8 Q(n,α ) 164 Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir 62 5350# 1060# 12320# 1130# 63 4550# 780# 9500# 920# 64 6330# 500# 10410# 640# 65 5550 100 7880# 310# 66 7658.11 0.07 8661 4 67 6674.4 1.4 5889.5 1.4 68 8847 5 6854.6 2.1 69 7225 29 4003 28 70 9790 21 5577 17 71 7920 40 2630 30 72 10610 30 4320 30 73 8810 50 1290 40 74 11400 50 2980 40 75 9710# 160# 20# 170# 76 12410# 450# 1740 210 77 ∗ −1570# 110# 17800# 11880# 6200# −190 −4951 −10345 −14128 −18610 −22789 −27000# −31360 −36020# ∗ ∗ ∗ ∗ 800# 600# 400# 100 16 28 21 40 20 160# 210 410# 8840# 1060# 12360# 780# 9610# 500# 12910 100 10420 40 13910.5 1.4 10808 4 15165 28 11170 30 15900 30 11730 80 16601 30 12260 50 17070# 160# 12610# 290# 17950# 650# 7120# 8740# 6900# 8290 6358.9 7938.1 6117.3 8185 5740 8070 5600 7900 5360# 7630# 5280 ∗ 430# 1060# 2970# 780# 2880# 500# 5340# 310# 5185.8 1.6 8127.5 1.9 7758.0 2.1 10961 28 9833 18 12900 40 11669 26 14930 40 13731 25 16740# 170# 15590# 290# 19260# 460# 165 Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir 62 3690# 1210# ∗ 63 5530# 920# 9670# 1060# 64 4790# 640# 10650# 780# 65 6650# 220# 8200# 450# 66 5715.96 0.05 8820 100 67 7988.8 1.1 6220.2 0.9 68 6650.1 0.6 6830.2 2.3 69 9119 28 4275.3 1.5 70 7340 30 5690 40 71 9870 40 2710 30 72 7890 30 4280 40 73 10640 30 1323 26 74 8700 28 2870 40 75 11090# 160# −288 25 76 9260# 290# 1290# 260# 77 12430# 470# −1550# 50# 19820# 14340# 8060# 2280# −3331 −8462 −12893 −17081 −21430 −25790 −29990# −34230# ∗ ∗ ∗ ∗ 900# 700# 500# 200# 28 27 28 18 40 40 200# 220# 10060# 1210# 11050# 990# 10870# 710# 11540# 360# 11694 4 12192.7 0.9 12566.4 2.1 12949 5 13159 29 13570 30 13870 40 14140 30 14390 50 14960 60 15070# 200# 15210# 460# 7370# 1140# 9060# 860# 7040# 590# 8490# 200# 6930 40 8146.3 0.9 6383 4 8270.7 2.9 6060 40 8250 30 6070 80 8182 20 5780 60 8210 30 5572 10 7740# 550# ∗ 1390# 3930# 3630# 6316 6420 9304.9 8758 11702 10690 13840 12630 15958 14770 18000# 16380# 166 Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt 63 4110# 1060# 10090# 1210# 64 6000# 780# 11130# 920# 65 5170# 220# 8580# 510# 66 7043.5 0.4 9220# 200# 67 6243.64 0.02 6747.9 0.9 68 8474.6 1.9 7316.0 0.9 69 7029 12 4655 12 70 9373 29 5942 8 71 7650 40 3020 40 72 10290 40 4710 40 73 8310 30 1750 40 74 11101 27 3326 20 75 9260# 90# 280# 90# 76 11860# 200# 2070 30 77 9650# 300# −1152 8 78 ∗ 460# 550# 16470# 10530# 4130 −1002 −7056 −11073 −15800 −19697 −24170# −28420 −32890# −37100# ∗ ∗ ∗ ∗ 800# 600# 100 8 30 28 30 13 90# 30 200# 500# 12290# 1130# 9420# 840# 12700# 410# 10200 100 13607.2 0.9 10766.3 1.5 14766 12 11011 29 15710 30 11490 40 16430 30 12102 30 17100# 90# 12920# 160# 17970# 290# 13180# 650# 9160# 1060# 7090# 780# 8590# 310# 6875 4 8173.7 0.9 6316.4 1.2 8144 12 6011 10 8150 30 5800 40 8050 40 5510 40 7920# 100# 5432 8 7780# 450# ∗ 2190# 1130# 2140# 920# 4510# 510# 4540# 300# 7171 4 7101.3 1.2 10136 12 9232 9 12360 30 11090 30 14340 40 13041 30 16340# 100# 15120 60 18450# 200# 16980# 650# 990# 710# 360# 4 40 2.1 4 28 40 30 80 27 60 200# 300# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(α ) Q(2β − ) Z 164 Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 9570# 10600# 11600# 12540 13929.12 15083 15749.6 16550 17334 17950 18791 19640 20374 21430# 22100# ∗ 165 Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 9050# 1140# 10080# 860# 11120# 590# 12200# 200# 13374.07 0.09 14663.3 0.9 15497 5 16343 6 17130 30 17790 40 18490 40 19460 40 20100 60 20790 30 21660# 450# ∗ ∗ −3260# 1140# 12670# 1030# ∗ 21990# 1060# −2560# 860# 10100# 730# ∗ 20150# 860# −1910# 590# 7150# 500# −15580# 18610# 540# −1310# 360# 4250# 200# −14840# 16710# 300# −530.1 1.6 910.4 2.1 −11160# 14881 4 138.7 1.5 −1968.6 2.5 −10110 12719.8 2.1 1107.9 2.1 −4241 28 −5844.0 11129.9 2.6 1842 3 −6494 27 −5237.8 9691 28 2497 29 −8650 40 −1627 8285 27 3030 40 −10590 30 −1840 6910 30 3780 30 −12770 40 2100 5640 30 4280 30 −15200 30 1500 4150 40 5032 30 −17220# 200# 5670 2690 50 5650# 60# −19030# 220# 5340 1320# 210# 6340 50 ∗ 9300# 200# 220# 6830# 50# ∗ 8730# 166 Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 9640# 10800# 11820 12759.5 14232.5 15124.7 16150 16708 17520 18180 18960 19801 20350# 21120 22080# ∗ ∗ −2720# 1060# 11160# 20800# 1000# −2070# 780# 8190# 19230# 600# −1540# 310# 5320 17420# 400# −728 4 2341.5 15570 100 180 40 −1183 13536.2 1.2 830.3 1.2 −3343 11485 12 1728 12 −5870 10217 8 2329 8 −7729 8710 40 3040 40 −9920 7410 30 3550 30 −11967 6030 40 4310 80 −14250# 4648 23 4856 4 −16453 3150# 90# 5510# 70# −18650# 1783 22 6139 4 −20650# 140# 260# 6724 6 ∗ −1090# 550# 7286 15 ∗ 1000# 720# 140 0.4 1.1 1.9 30 18 40 30 40 16 180# 210 460# ∗ 21380# 19570# 18010# 16264 13880 12340.7 10419 9258 7740 6568 5020 3639 2440# 1040 −510# −3180# 1000# 11570# 920# −2430# 670# 8980# 640# −1750# 450# 6230# 310# −1140# 220# 2900 4 −449.6 1.3 −23.7 40 431.0 1.8 −3099 2.1 1303.6 2.1 −4927 28 2070 30 −7250 16 2611 29 −9201 40 3240 40 −11360 26 3923 26 −13588 80 4560 60 −15640# 15 5278.5 2.0 −17770 170# 5810# 130# −20380# 210 6477 6 ∗ 460# 6970# 100# ∗ 900# 600# 400# 100 2.1 28 16 40 26 40 24 160# 210 440# Q(β − n) Q(ε p) A Elt. 950# 670# 400# 110 0.08 3 2.5 40 21 80 23 60 21 260# 550# 499 ∗ 380# −17250# 1000# 310# −16140# 810# −3220# −12750# 510# −3770 −11770# 300# −7660.67 −7675 4 −7884 −6852.0 2.1 −11286 −2793 28 −10660 −3138 17 −14300 804 29 −13430 194 26 −17350 4220 40 −16450 3760 30 −20298 7610# 160# −19590# 7160 220 ∗ 11450# 410# ∗ 950# 670# 400# 100 0.07 5 6 30 30 40 40 60 23 430# 1230# 1110# −2460# −2760# −6702.2 −7026.3 −10711 −9985 −13720 −12690 −16420 −15693 −19290# −18270 −22450# ∗ 1080# 810# 510# 200# 1.4 2.0 28 16 40 30 40 21 160# 210 460# 810# ∗ 1790# 600# −17890# 1080# −1810# 100 −14490# 710# −2210 1.3 −13410# 500# −5756.9 12 −9710# 200# −6619.9 8 −8602.6 1.2 −10067.0 30 −4278 12 −9680 29 −4349 8 −13218 40 −374 30 −12460 30 −860 40 −16080 90# 3060 40 −15310 21 2455 30 −19306 220# 6720# 90# −18280# 500# 6130 30 −21890# 10160# 200# ∗ 9570# 540# ∗ 950# 630# 100 1.0 2.0 2.4 30 28 40 30 40 30 220# 220# 950# 630# 400# 100 2.1 2.7 28 40 30 30 30 40 200# 250# 500 A Elt. G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Z S(n) Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) 167 Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt 63 5050# 1130# ∗ 64 4370# 840# 11390# 1000# 65 6150# 410# 8730# 720# 66 5420 60 9470 120 67 7281 5 6985 5 68 6436.45 0.18 7508.8 0.9 69 8726 12 4905.7 1.5 70 7077 9 5989 12 71 9550 40 3200 30 72 7680 40 4740 40 73 10320 40 1780 40 74 8268 22 3280 30 75 11060# 100# 230# 50# 76 9140 70 1940# 110# 77 11950# 200# −1071 5 78 9820# 650# 620# 450# 18700# 12600# 6710# 660 −4790 −9829 −14197 −18505 −22660# −26960 −31270 −35550# ∗ ∗ ∗ ∗ 800# 600# 400# 60 30 28 28 20 60# 80 30 410# 10930# 1210# 10570# 920# 11340# 640# 11430# 210# 12042 5 12318.6 0.9 12690.8 2.4 13053 5 13500 40 13690 40 14000 40 14477 26 14740# 60# 14860 80 15280# 200# 15800# 460# 9460# 1130# 7270# 840# 8770# 570# 7010 120 8551 5 6554.4 1.5 8265.3 2.4 6158 28 8390 40 6040 40 8330 30 6060 30 8260# 50# 6010# 180# 8240 210 5590# 120# ∗ 3120# 1000# 2910# 720# 5460# 410# 5440 100 8323.0 1.2 8085.2 2.0 11002 4 10030 40 13200 30 11940 40 15379 28 14090# 60# 17380 70 16210# 160# 19570# 460# 168 Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt 64 5470# 65 4730# 66 6700 67 5850 68 7771.32 69 6840.7 70 9052 71 7630 72 9960 73 8110 74 10873 75 9030# 76 11560 77 9730# 78 12570# 14890# 8820# 3010 −3000 −7636 −12924 −16684 −21270 −25370 −29650# −33850 ∗ ∗ ∗ ∗ 700# 500# 140 60 28 28 17 60 30 150# 210 9210# 1060# 12610# 780# 9910 170 13230 30 10791.0 0.9 14324.7 1.8 11030 12 15240 50 11370 40 16180 40 11920 30 16810 30 12570# 90# 17410# 150# 12880# 290# 7320# 8830# 6960# 8420 6771.9 8074.7 6225 8090 5950 8110 5829 7930 5530 7770# 5450# 990# 710# 240# 30 0.9 2.6 4 50 40 40 23 40 25 250# 50# 1340# 1140# 3710# 860# 3550# 520# 6240# 200# 6267.6 1.2 9233.3 2.0 8600 4 11520 50 10570 40 13690 40 12390 30 15710 40 14518 28 17560# 150# 16260# 290# 169 Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au 64 3870# 1060# ∗ 65 5670# 780# 9280# 66 5110 330 10390# 67 6810 40 7530 68 6003.27 0.15 8150 69 8033.6 1.5 5572.2 70 6866.98 0.15 6342 71 9080 50 3792 72 7430 40 4940 73 9970 40 2220 74 8099 22 3810 75 10660 40 780 76 8802 28 2220 77 11410# 150# −621 78 9410# 290# 920# 79 ∗ −1960# 17030# 11180# 4770 −726 −6212 −10990 −15453 −19691 −24000 −28210 −32540# −36600# ∗ ∗ ∗ ∗ 800# 600# 300 21 28 28 16 29 40 40 200# 300# 10390# 1130# 11320# 840# 10950# 500# 11840 60 12069 5 12727.6 1.1 12889 4 13228 6 13500 40 13890 40 14140 30 14410 30 14830# 60# 15130 80 15420# 200# 15460# 500# 7570# 1130# 9170# 840# 7020 320 8651 20 7012.3 0.9 8515.7 1.1 6388 12 8375 8 6170 40 8430 40 6040 30 8370 30 5990# 90# 8220 30 5694 15 7870# 590# ∗ 2150# 1000# 4440# 670# 4600 100 7307.8 1.3 7443.3 1.3 10208 4 9463 13 12518 29 11380 40 14590 30 13360 40 16817 27 15420# 90# 18710# 200# 17060# 360# 920# 640# 150 30 0.12 1.8 5 60 40 40 25 60# 70 150# 460# 11810# 1060# 9090# 780# 10010# 420# 7420 70 7999 5 5309.9 1.8 6315 4 3760 50 5150 40 2220 40 3830 30 1000 40 2440# 50# −470# 170# 1250 210 920# 590# 140 30 1.1 4 3 50 40 30 30 40 24 250# 360# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) 167 Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 9170# 10380# 11330# 12460 13525 14911.1 15755.0 16449 17200 17970 18640 19370 20320# 21000# 21600# ∗ 168 Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 9850# 10880# 12120 13130 14207.77 15566 16129 17190 17640 18440 19141 20090# 20695 21680# 22390# 169 Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 Q(α ) S(2p) Q(2β − ) 12260# 9240# 6440# 3360 262 −2703 −5050 −7126 −9150 −11380 −13510# −15590 −17760# −19960# ∗ ∗ 900# ∗ 600# ∗ 400# −16530# 60 −12830# 5 −11820 4 −7995.6 30 −6760.4 28 −2951 40 −2900 30 832 60# 380 80 4480 60# 3970# 410# 8100 7480# 11610# 920# 510# 140 30 0.21 12 7 60 40 40 19 90# 22 250# 550# ∗ 20470# 18740# 16880 14984.6 12818.7 11221 9750 8350 6950 5610 4280 2677 1470# 180 −2350# 1060# 950# −1820# 780# 610# −1240# 420# 100 −410 100 1.3 551.6 1.2 2.0 1244.5 2.3 4 1950 4 50 2400 50 29 3240 30 40 3820 40 30 4506 12 40 5063 13 16 5818.2 2.9 180# 6480 50 210 6997 9 10460# 7570# 4430 1250 −1422 −4250 −6214 −8670 −10470 −12600 −14900 −17050# −18950 ∗ ∗ 710# 500# 140 30 4 50 28 50 30 40 20 160# 210 9340# 1000# 10400# 720# 11810 310 12659 21 13774.59 0.19 14874.3 1.0 15919 5 16720 30 17390 40 18080 40 18972 25 19690# 60# 20360 80 21140 30 21980# 450# ∗ ∗ 21090# 19480# 17540# 15570 13571 11652 10107 8701 7370 6030 4610 3210 1820# 450# −710# −2530# 1210# −1960# 920# −1560# 590# −570# 200# 264.3 1.2 1199.7 1.3 1733 4 2434 5 3150 40 3730 40 4290 30 5044 29 5716 3 6151 8 6846 13 7410# 370# 11700# 8710# 5330 2477 −558 −3203 −5653 −7787 −9800 −11900 −14196 −16300 −18350# −20290# ∗ ∗ 860# ∗ 600# ∗ 300 −14790# 20 −13590# 4 −9650 5 −8500 28 −4663 28 −4049 30 −431 40 −520 30 3150 40 2720 200# 6880 300# 6420 10330# 9660# 1000# 670# 400# 60 5 4 5 28 40 30 40 30 60# 220# 300# Q(β − n) Q(ε p) ∗ −2860# 1130# 21480# 1080# −2230# 920# 19860# 810# −1640# 640# 18050# 510# −870# 300# 16210# 200# −110 7 14256.7 1.2 664.8 1.2 12221.7 1.6 1410.7 1.8 10644 4 2155 6 9140 30 2810 30 7760 40 3410 30 6490 40 4020 40 5030 30 4770 30 3560# 60# 5280# 40# 2220 80 5980 50 1000 30 6503 6 −530# 450# 7160 50 1060# 780# 450# 60 5 1.9 2.6 28 40 40 30 30 60# 220# 220# 501 ∗ −16200# −15150# −11510# −10350 −6320 −5567 −1800 −2055 1820 1290 5270 4809 8810# 8180 2740# −1010# 900# −1320# 600# −4930 100 −5426 1.3 −9474 1.6 −9031 4 −12640 30 −11710 29 −15440 40 −14531 30 −18310# 60# −17470# 70 −21370# 90# −20360# 410# ∗ 1000# 600# 400# 60 5 12 8 30 40 40 30 90# 60# 220# 500# 950# 610# 400# 60 6 4 50 28 40 30 40 23 160# 220 −330# −630# −4350 −4840 −8519.7 −8795 −12140 −11670 −15080 −14380 −18120# −17360 −20983 −20270# ∗ 810# 510# 140 30 1.5 4 30 50 40 30 60# 80 22 430# 760# 500# 140 30 4 5 28 50 30 40 30 40 200# 330# 530# 400# −3610 −3878 −7682.3 −7777 −11380 −10788 −14390 −13470 −17190 −16470 −20050# −19110 ∗ ∗ 950# 610# 300 20 1.9 4 50 28 40 30 30 30 150# 210 502 A Elt. G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Z S(n) 170 Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au 65 4320# 66 6130# 67 5510 68 7257.2 69 6591.97 70 8470 71 7304 72 9610 73 7920 74 10447 75 8600 76 11278 77 9310# 78 12000# 79 9900# 171 Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg 65 5230# 66 4520# 67 6350 68 5681.6 69 7486.3 70 6614.5 71 8595 72 7250 73 9650 74 7860 75 10400 76 8437 77 11180# 78 9240 79 12020# 80 ∗ 172 Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 173 Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg 66 4120# 67 5770# 68 5240# 69 6950 70 6367.3 71 8215.8 72 7080 73 9140 74 7700 75 10100 76 8271 77 10820# 78 8910 79 11610# 80 9550# 5690# 4950# 6836 6236 8019.46 6979.1 9040 7680 10080 8340 11016 9160# 11700 9790# 12660# Q(4β − ) S(p) Q(d,α ) 9220# 7040# 8560 7036 8360.2 6643.4 8148 6110 8190 5920 8030 5770# 8050# 5637 7790# 920# 450# 80 5 1.1 1.3 17 40 40 30 30 50# 130# 6 460# Q(n,α ) 920# 9730# 1060# 360# 10860# 630# 50 7930 300 1.5 8600 20 0.17 6160.9 1.1 4 6778.0 0.8 18 4229 17 40 5466 28 40 2710 40 22 4290 30 40 1290 30 27 2830 30 110# −110# 110# 200# 1510 30 360# −1474 15 13460# 7110# 1070 −3861 −9663 −13476 −18390 −22326 −26820# −30988 −35310# ∗ ∗ ∗ ∗ 700# 200# 50 28 28 15 30 30 110# 24 210# 12470# 9550# 13030 10660 13906.9 11259.5 14975 11520 15930 11810 16680 12580 17380# 13150# 18140# ∗ 11060# 8150# 8770 6390.0 6800.5 4353.6 5410 2760 4240 1250 2660 −210 1440# −1452 170# 760# 630# 50 1.2 0.9 1.9 30 40 40 30 30 40 140# 18 360# 15720# 9200# 3310 −2294 −7495 −12226 −16583 −21140 −25290 −29620 −33690 −37800# ∗ ∗ ∗ ∗ 800# 300# 600 29 28 28 28 30 50 90 40 300# 11110# 1130# 10690# 670# 11790 670 11789 20 12423.9 1.6 12678.6 0.9 13248 4 13357 29 13710 40 13920 40 14380 30 14800 30 15000 50 15320 90 15520# 200# 16000# 420# 9470# 1060# 7250# 590# 8900 620 7210 30 8645.2 1.6 6869.6 1.7 8605 4 6500 60 8500 40 6170 40 8500 30 6370 40 8420 40 6140# 180# 8340 210 ∗ ∗ 3630# 3620# 6490 6500 9331.0 9130.5 11790 10990 13920 12790 16243 15010 18170 16820# 20190# 760# 780# 140 30 1.3 2.5 29 50 40 40 25 50 90 150# 360# 500# 720# 4 5 0.14 2.7 40 40 40 60 24 110# 90 160# 360# 11520# 8570# 9250 6944 7333.7 4718.2 5859 3190 4670 1730 3280 520# 1960 −900# 810 900# 500# 600 5 1.0 2.4 25 40 40 60 30 110# 40 180# 210 11530# 5340# −86 −6050 −10163 −15220 −19165 −23810# −28000 −32240# −36150 ∗ ∗ ∗ ∗ 400# 400# 25 29 28 50 28 110# 30 170# 210 9320# 12970# 10470 13445 11251.1 14738.4 11617 15630 11750 16480 12391 17120# 12930# 17730# 13240# 810# 450# 50 5 0.9 2.4 30 40 40 60 30 110# 100# 160# 290# 7230# 9070# 7178 8413 6883.7 8493 6538 8250 6060 8260 6010 8070# 5844 7960# 5570# 720# 500# 20 6 0.9 4 25 40 40 60 30 110# 23 260# 360# 1820# 4340# 4760 7070 7314.8 10185.0 9613 12394 11270 14410 13326 16510# 15267 18450# 16930# 900# 720# 300 21 1.3 2.5 25 28 40 60 21 110# 28 160# 290# 640# 570# 200# 7 0.3 2.2 40 40 40 60 21 110# 60 160# 300# ∗ 8660# 9540# 7058 7465 4914.5 5959 3280 4690 1750 3200 323 1710# −992 580# 570# 450# 6 6 1.6 28 40 40 40 60 19 120# 23 260# 13780# 7790# 1760# −3862 −8829 −13332 −17970 −22120 −26790 −30730 −34870# ∗ ∗ ∗ ∗ 500# 400# 200# 28 28 28 30 30 60 40 210# 10430# 11730# 11580# 12177 12370.1 13137.2 13133 13750 13700 14240 14520 14732 15200 15360 15710# 950# 500# 630# 5 1.0 1.6 28 40 40 40 30 23 70 90 210# 7430# 9430# 7460# 8720 7108.4 8747.2 6760 8720 6270 8600 6344 8520 6240# 8350 5910 860# 450# 200# 5 0.9 1.7 30 40 40 30 30 18 120# 30 50 ∗ 2890# 5660# 5630 8204.7 8561.2 11004 10560 13170 12230 15502 14292 17630 16150# 19380# 810# 280# 50 1.6 1.8 28 30 40 40 21 29 60 110# 210# 1060# 360# 600 0.4 1.3 0.6 17 40 40 30 40 22 110# 90 210# 990# 540# 150 30 1.1 1.7 17 50 40 30 30 30 100# 150# 290# Q(p,α ) 2890# 1060# 2680# 630# 5250# 400# 5470 60 8132 5 8174.2 1.2 10885 17 9987 28 13010 40 11820 30 15080 40 13807 22 17160# 110# 15840 80 19110# 200# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(2β − ) Q(α ) Q(β − n) Q(ε p) A Elt. Z 170 Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 9990# 11240# 12320 13260.5 14625.6 15337 16390 17040 17890 18546 19270 20080 20720# 21410 ∗ ∗ 20140# 18320# 16130 14310 12350.2 10570 9257 7650 6510 5100 3616 2100# 893 −550# −2160# 1060# 730# −1690# 630# 510# −910 110 140 50.6 1.9 30 851.4 1.3 1.2 1737.7 1.2 17 2159 20 28 2910 29 50 3460 40 30 4140 30 40 4760 40 20 5539 3 110# 6110# 50# 22 6708 4 250# 7168 21 9900# 6450# 3560 654.4 −2490 −4515 −7170 −8960 −11220 −13366 −15600# −17622 −19710# ∗ ∗ 171 Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 9550# 1000# ∗ 10650# 420# 20790# 11860 600 19010# 12938.8 1.5 16700 14078.3 1.3 14990 15084 4 12961.4 15899 5 11131.5 16860 40 9639 17570 40 8221 18310 30 6950 19010 40 5540 19710 30 3953 20490 50 2620 21240# 220# 1330 21920# 300# 60 ∗ −1300# −2340# 1130# 860# −1840# 670# 850# −1110# 720# 300 −210 60 20 646 5 1.3 1559.7 1.3 2.0 2289.9 2.3 29 2738 29 28 3360 40 40 3960 40 40 4680 40 24 5371 4 50 5980# 30# 90 6610 50 40 7089 17 360# 7620# 500# 11020# 1000# ∗ 7610# 300# ∗ 4690 600 −15470# 1587.3 1.5 −11350# −1382.1 2.1 −10260 −3881 29 −6486.5 −6113 28 −5321.9 −8350 40 −1951 −10470 40 −1700 −12790 30 1880 −14820 50 1600 −16820 90 5711 −18870 50 5200 −20970# 310# 9170 ∗ 8470# ∗ 12520# 172 Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 10210# 11300# 12517 13722 14634.0 15574 16290 17330 17950 18750 19453 20340# 20938 21810# ∗ 450# 400# 4 6 0.6 17 40 40 30 60 18 150# 23 260# ∗ 19640# 17400# 15710 13723.6 11518.7 10213 8600 7420 5960 4523 3180# 1751 540# −640 −2050# 810# −1330# 200# −350 50 260 1.5 1311.5 2.5 2151.4 25 2746 30 3310 40 3840 60 4450 21 5227 110# 5850# 17 6465 190# 7030 210 7525 810# 640# 140 30 1.3 2.9 25 50 40 60 7 100# 4 50 12 8760# 5980# 2771 −639 −2857 −5411 −7310 −9810 −11860 −14000# −16137 −18240# −20010 ∗ ∗ 400# 400# 4 6 25 28 40 60 30 120# 19 190# 210 ∗ −15190# −13660# −10140 −8824.4 −4814.7 −4380 −785 −950 2910 2560 6440# 5903 9860# 9090 173 Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 9810# 10720# 12070# 13186 14386.8 15194.9 16120 16820 17780 18450 19288 19980 20610 21400 22210# 590# 720# 200# 5 0.4 2.0 40 40 40 40 24 40 100 40 360# ∗ 20180# 18120# 16310 14409.4 12248.1 10678 9141 7870 6410 4930 3600 2230 970 −320# −2300# 900# −1430# 360# −480# 600 119 1.6 947.5 1.9 1969.3 28 2534 28 3256 40 3560 40 4310 30 5055 30 5689 60 6350 50 6836 230# 7380 950# 720# 360# 21 1.3 1.8 28 28 40 40 6 27 50 5 50 9870# 7160# 3900# 627 −2144 −4489 −6680 −8840 −11290 −13280 −15500 −17452 −19370# ∗ ∗ 540# 400# 200# 5 28 28 40 40 30 30 60 29 220# ∗ ∗ −13210# −12150# −8356 −6795 −3440 −2944 390 490 4370 3960 8010 7410# 11240# 860# 240# 60 1.5 1.5 4 50 40 40 22 40 16 180# 210 503 700# ∗ 200# −17050# 50 −13440# 1.6 −11800 17 −8286 28 −7129.2 30 −3319 30 −3173 40 651 19 130 110# 4080 21 3701 230# 7780# 7130 11180# 1190# −2930# −3390 −6906.0 −7502 −10763 −10660 −14030 −13290 −16980 −16270 −19918 −19020# −22590# ∗ 760# 200# 50 1.8 4 5 30 40 30 30 40 29 230# 300# 2090# −1940# 920# −2480 200# −5995.6 50 −6518.0 1.5 −10073 2.0 −9651 29 −13360 30 −12500 40 −16240 40 −15394 24 −19050# 50 −18200 90 −21930# 100# ∗ 300# ∗ 830# 300# 600 1.8 1.1 17 28 40 30 40 30 100# 40 220# 900# 300# 600 1.6 2.6 25 28 40 60 30 110# 23 160# 230 −1280# −1750# −5345 −6139 −9498.1 −9381 −12750 −12320 −15920 −15300 −18880 −18120# −21608 −20860# ∗ 720# 400# 4 6 1.9 29 40 40 40 60 40 140# 29 340# 450# 400# 4 6 28 28 40 40 30 60 60 110# 210# −450# −680# −4350# −5070 −8886.3 −8554 −12150 −11370 −15280 −14390 −17990# −17242 −20730# −19800 ∗ 640# 400# 200# 5 2.4 25 40 40 60 30 110# 19 170# 210 830# 600# 300 20 1.2 17 28 28 30 40 19 110# 30 210# 504 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z 174 Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg 67 68 69 70 71 72 73 74 75 76 77 78 79 80 4480# 6370# 5680 7464.63 6760.8 8506 7420 9570 8190 10629 8670 11450 9450# 12150# 640# 360# 40 0.06 1.5 28 40 40 40 19 30 60 110# 210# 9010# 10140# 7510# 7980 5308.0 6249.8 3620 5120 2230 3730 720 2336 −460# 1120 710# 500# 200# 5 1.6 2.2 40 40 40 30 30 18 120# 30 10070# 3900# −2130 −6723 −11902 −15850 −20870 −24910 −29480# −33349 ∗ ∗ ∗ ∗ 500# 300# 50 28 28 11 40 30 110# 23 12940# 10160# 13330 11141 14395.8 11605.5 15370 11810 16130 12240 17080 12910# 17620# 13350# 640# 500# 40 6 1.6 2.8 40 40 40 60 30 110# 100# 160# 9480# 7440# 8720 7130.1 8600.9 6851.0 8550 6360 8280 6120 8290 5980 8140# 5781 590# 670# 40 1.0 1.6 2.6 40 40 40 30 30 40 140# 19 3640# 3810# 6300 6421.7 9286.7 9111.9 11739 10850 13690 12740 16030 14620 17880# 16470 950# 420# 600 1.6 1.9 2.3 28 40 40 30 40 22 110# 90 175 Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg 67 68 69 70 71 72 73 74 75 76 77 78 79 80 5370# 4770# 6520 5822.35 7666.7 6708.5 8740 7480 9690 8180 10630 8442 11320# 9410 780# 500# 70 0.07 1.0 0.4 40 40 40 17 30 22 110# 100 ∗ 10440# 7660# 8120 5510.1 6197.5 3851 5180 2350 3720 721 2110 −590 1080# 640# 300# 40 1.3 2.2 28 40 40 30 23 30 40 140# 12370# 5830# 90 −5068 −9882 −14379 −18980 −23940 −27850 −32120 ∗ ∗ ∗ ∗ 600# 400# 60 28 28 14 30 30 50 100 11690# 11160# 12050# 12269 13096.4 13112.7 13710 13470 14150 14160 14720 15293 15210 15540 780# 570# 200# 5 1.3 2.2 40 40 40 30 25 23 70 100 9790# 7610# 9040 7543 8953.6 7121.5 8860 6560 8670 6280 8673 6690# 8520 6160# 720# 570# 50 6 1.3 2.8 40 40 40 60 25 110# 40 190# ∗ 4720# 4730# 7435 7856 10422.8 9979 12420 11690 14640 13740 17194 15720# 18760 570# 400# 4 6 2.3 28 40 40 30 60 24 110# 100 176 Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl 68 69 70 71 72 73 74 75 76 77 78 79 80 81 5920# 5130 6864.8 6287.98 8165.0 7030 9080 7850 10060 8504 11309 9170# 11860 ∗ 570# 110 1.0 0.15 1.8 40 40 40 30 28 24 110# 100 10990# 8010# 8470 5975.7 6695.8 4170 5520 2720 4100 1045 2788 140# 1630 −1250# 720# 410# 50 1.3 0.8 30 40 40 40 24 24 110# 40 220# 8080# 1990 −2853 −8324 −12480 −17500 −21710 −26530# −30320 −34410# ∗ ∗ ∗ ∗ 400# 100 28 28 28 40 30 110# 30 200# 9710# 13290# 11090 14273.0 11708.6 15190 11810 15880 12290 16846 12650 17490# 13130# 17910# 640# 310# 40 1.3 1.3 30 40 40 40 23 30 110# 100# 200# 7460# 9140# 7629 9033.0 7172.3 8910 6620 8530 6320 8441 6208 8270# 5905 7980# 570# 220# 4 1.3 1.3 40 40 40 40 25 19 120# 22 290# 2930# 5370# 5810# 8518 8625.2 11170 10420 12980 12280 15340 14157 17380# 15810 19020# 640# 410# 200# 5 1.5 30 40 40 40 30 21 110# 60 200# 177 Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl 68 69 70 71 72 73 74 75 76 77 78 79 80 81 4370# 6170# 5566.40 7072.99 6383.4 8430 7130 9280 7920 10258 8514 11080# 9070 11950# 640# 310# 0.22 0.16 0.7 30 40 40 30 28 21 110# 80 200# ∗ 8260# 8900 6183.9 6791.2 4435 5630 2920 4180 1240 2798 −89 1530# −1162 500# 100 1.6 0.7 3 40 40 30 30 25 19 130# 21 10090# 4260# −1287 −6120 −10940 −15676 −20330 −24720 −29170 −32720 ∗ ∗ ∗ ∗ 500# 300# 28 28 16 20 30 30 80 30 10710# 11890# 12040 13022.4 12991.9 13471 13420 14070 14050 14768 14769 14851 15370 15370 780# 500# 50 1.3 0.7 4 40 40 30 24 25 23 90 100 7570# 9350# 7740 9424.6 7549.7 8987 6900 8820 6590 8813 6360 8633 6280# 8180 710# 420# 40 1.3 1.2 4 40 40 30 23 30 17 130# 30 ∗ 3680# 6610# 7130 9706.4 9498 11791 11120 13920 13270 16272 14960 18180 16510# 590# 300# 40 1.4 3 28 40 30 30 19 30 80 110# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) 174 Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg 67 68 69 70 71 72 73 74 75 76 77 78 79 80 10250# 11600# 12630 13832.0 14976.6 15586 16550 17270 18290 18901 19490# 20361 21060# 21700 175 Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg 67 68 69 70 71 72 73 74 75 76 77 78 79 80 9850# 720# 11140# 450# 12200 50 13286.99 0.09 14427.6 1.1 15215 28 16150 40 17050 40 17880 40 18809 20 19299 24 19890 60 20770 50 21560# 230# ∗ 19450# 17800# 15630# 13490 11505.5 10101 8800 7470 5960 4450 2830 1750 630 640# 400# 200# 5 2.3 28 40 40 30 30 24 40 120 176 Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl 68 69 70 71 72 73 74 75 76 77 78 79 80 81 10690# 11650 12687.2 13954.7 14873.5 15770 16560 17530 18240 19130 19751 20480# 21274 ∗ ∗ 18450# 16120# 14100 12205.9 10370 9373 7900 6450 4770 3510 2250# 1038 −170# 510# 300# 40 1.5 30 28 40 40 30 18 110# 18 220# 177 Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl 68 69 70 71 72 73 74 75 76 77 78 79 80 81 10290# 640# 11300# 300# 12431.2 1.0 13360.97 0.22 14548.4 1.9 15458 28 16210 40 17120 40 17987 21 18761 28 19823 24 20250 40 20930 130 ∗ 640# 300# 50 0.3 2.3 25 40 40 60 18 110# 17 190# 210 500# 110 1.0 1.0 1.7 40 40 40 30 30 19 150# 24 S(2p) Q(2β − ) Q(α ) ∗ −1590# 18800# 500# −710# 17050# 400# −50 15038 4 740.1 12773 6 1800.4 11164.3 2.3 2497.4 9577 28 3140 8400 40 3600 6920 40 4040 5480 30 4872 3920 60 5624 2659 19 6184 1250# 150# 6699 124 23 7233 860# 360# 70 1.6 1.8 2.4 30 40 40 10 10 5 7 6 505 Q(β − n) Q(ε p) 8370# 510# ∗ 5000# 300# −15460# 1710 40 −12060# −1103.0 2.3 −10590# −3835 28 −6605 −5620 28 −5579.3 −8070 40 −2144 −10230 30 −2100 −12800 40 1430 −14677 16 1440 −16670# 110# 5400 −18672 23 4830 ∗ 8790# ∗ 8010 590# 400# 200# 5 2.3 28 40 40 30 40 19 100# 60 80# 540# −3760# 300# −4380 40 −8135.1 1.7 −8235 28 −11521 28 −11080 40 −14740 40 −14310 30 −17796 18 −17000 60 −20571 29 −19700# 230# ∗ −1730# 1000# −960# 500# −220 600 599.3 1.6 1620.0 1.6 2403.4 2.3 3000 28 3370 40 4010 40 4560 30 5400 30 6178.1 2.6 6562 15 7060 50 9510# 600# ∗ 6050# 400# ∗ 2860 50 −14100# 510# −216.8 2.3 −10040# 300# −2762 28 −8590 40 −4851 28 −4823.2 2.3 −7120 40 −4122 28 −9530 30 −1075 28 −11860 30 −840 40 −14415 23 2830 30 −15990 50 2960 30 −17700 100 7017 22 ∗ 6140 50 ∗ 10040 100 1080# 670# −2850# 400# −3440 50 −7196.7 1.6 −7395.4 1.9 −10814 28 −10250 40 −14030 40 −13360 30 −17310 30 −16181 23 −19570# 100# −18870 50 ∗ −1200# −400# 570 1568 2257.9 2950 3340 3840 4570 5240 5885.2 6558 6897 7410# 570# 410# 4 6 1.5 30 40 40 40 50 2.1 7 6 250# 6990# 4010 1083.4 −2020 −3936 −6300 −8540 −11200 −13170 −15320# −17149 −19090# ∗ ∗ ∗ −1450# 19250# 670# −800# 16920# 400# 240# 14650 50 1445 12766.9 1.4 2241.7 11131 3 2737 9796 28 3290 8440 40 3700 6890 30 4350 5340 30 5080 3844 20 5642.8 2700 24 6297 1670 80 6740 460 50 7067 710# 500# 200# 5 1.5 3 40 40 30 30 2.7 5 50 7 8190# 500# ∗ 4920# 300# ∗ 1900.4 1.7 −11780# 400# −665 3 −10300 100 −3188 28 −6684.5 1.7 −5454 28 −5625 3 −7750 30 −2413 28 −10220 30 −2190 40 −12579 22 1400 30 −14497 24 1730 30 −16590 80 5440 30 −18222 28 5022 24 ∗ 8860 80 ∗ 7920# 110# 400# ∗ 100 −13860# 1.8 −12130# 30 −8360 28 −7165.8 40 −3480 40 −3447 30 60 30 250 110# 4140 20 3888 220# 7600# 6622 10700# 600# 400# 50 1.5 30 28 40 40 30 20 110# 24 200# −2260# 400# −2740 100 −6394.8 1.6 −6974.8 1.9 −10240 28 −9800 40 −13420 40 −13030 30 −16740 30 −16242 28 −19560 40 −18620# 150# ∗ ∗ −1500# −2050# −5673.2 −5882.8 −9600 −9153 −12710 −12240 −16160 −15191 −18910# −17842 −21400# ∗ 510# 300# 1.6 0.8 30 28 40 40 26 24 110# 19 210# 506 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z 178 Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb 69 70 71 72 73 74 75 76 77 78 79 80 81 82 4720# 6780 6025.3 7625.96 6855 8790 7460 9668 8276 10699 8850 11610 9500# ∗ 500# 10 1.9 0.18 15 30 40 23 28 18 60 80 120# 8600# 9520# 6642.8 7344.2 4907 5981 3240 4570 1591 3240 240 2056 −740# 390 640# 300# 2.5 0.7 15 15 40 30 25 23 60 18 140# 30 6390# 718 −4690 −8898 −14255 −18418 −23330 −27229 −31500# −35566 ∗ ∗ ∗ ∗ 400# 18 28 17 25 19 60 21 120# 27 13100# 10390 13861.9 11653.9 14781 11660 15700 12230 16560 12574 17310 12930# 17740# 13730# 570# 100 2.5 0.7 15 30 40 30 30 23 60 110# 110# 200# 9400# 7480 9221.7 7590.5 8841 6860 8840 6610 8717 6295 8230 5990 8100# ∗ 570# 50 2.3 0.8 15 30 40 30 24 23 60 40 150# 4330# 4600# 7620 7902.8 10310 9714 12400 11730 14680 13753 16750 15020 18340# 17200 720# 400# 50 1.5 15 15 40 30 30 17 60 23 120# 100 179 Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb 69 70 71 72 73 74 75 76 77 78 79 80 81 82 5560# 4790# 6792 6098.99 7930 6959 9000 7545 9897 8337 10700 8680 11620# 9640# 640# 300# 5 0.08 15 22 40 24 23 14 60 30 120# 200# ∗ 9590# 6655 7417.9 5211.0 6085 3459 4660 1820 3301 243 1880 −730 530# 500# 11 2.0 0.4 22 29 30 20 22 20 60 50 230# 8770# 2890# −2478 −7452 −12289 −17040 −21634 −26100 −29780 −34270# ∗ ∗ ∗ ∗ 500# 300# 25 18 11 18 30 30 40 200# 11910# 11760# 12636 12627.9 13234.1 13131 13830 13960 14583 14494 15129 15340 15190 16040# 710# 420# 5 0.7 0.5 16 40 30 19 22 22 30 90 200# 9760# 7820# 9294 7779.5 9075.2 6930 8920 6910 8885 6461 8840 6480# 8340 6320# 640# 310# 5 0.7 0.8 30 40 30 30 22 22 110# 50 280# ∗ 5730# 5960 8668.6 8667.4 10920 10430 13270 12632 15481 14555 17650 15880# 19430# 500# 100 1.7 0.9 16 40 30 30 29 26 30 110# 200# 180 Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb 70 71 72 73 74 75 76 77 78 79 80 81 82 6060# 5690 7387.78 6641.2 8412 7320 9410 7971 10243 8716 11390 9170# 12010# 500# 70 0.15 2.5 15 30 27 24 14 27 30 120# 200# 10090# 7560# 8013 5753.2 6567 3825 5060 2246 3648 622 2582 −230# 930 640# 310# 5 2.5 4 26 30 28 15 23 22 120# 50 5240# −850 −5430 −10959 −15209 −20243 −24114 −28580# −32497 ∗ ∗ ∗ ∗ 400# 70 20 22 12 30 25 120# 24 10420# 13720 11265.4 14218.9 11574 15287 12010 16279 12527 17112 12790 17630# 13530# 570# 70 2.0 2.5 16 26 30 27 23 24 60 120# 120# 7930# 9170 7464.7 8817.5 6943 8730 6770 8836 6476 8638 6170 8240# 6253 500# 70 0.8 2.5 5 40 30 27 23 26 18 140# 26 4040# 6430# 6847.2 9099.2 8892 11530 10990 13940 13160 16097 14772 17790# 16490 640# 310# 1.8 2.6 4 22 30 40 19 29 20 120# 80 181 Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb 70 71 72 73 74 75 76 77 78 79 80 81 82 4510# 6130# 5694.80 7576.8 6681 8743 7270 9570 8010 10346 8488 11470# 9280 570# 310# 0.07 1.3 6 25 40 30 18 29 21 120# 90 ∗ 7620# 8020 5942.2 6607 4156 5000 2400 3686 724 2354 −155 1030# 500# 70 2.1 5 13 40 30 26 23 26 16 150# 7410# 1770# −3860 −8970 −13879 −18640 −22890 −26671 −31230 ∗ ∗ ∗ ∗ 400# 300# 30 26 16 24 40 27 90 11470# 12390# 12363 12741.1 12823 13503 13740 14260 14414 15103 15002 14831 15870 640# 420# 5 2.1 5 20 40 30 18 22 23 29 100 8130# 9820# 7795.2 8866.7 7117 8769 6960 8940 6741 8991 6530 8380 6470# 570# 300# 2.0 2.1 16 20 40 30 25 23 60 16 150# ∗ 5020# 7933 7547.8 9837 9642 12510 11830 14818 14027 16983 15170 18820 500# 10 2.9 5 20 40 40 22 28 19 60 90 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) 178 Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb 69 70 71 72 73 74 75 76 77 78 79 80 81 82 10880# 12347 13098.3 14009.4 15280 15920 16730 17590 18533 19213 19930# 20680 21450# ∗ 179 Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb 69 70 71 72 73 74 75 76 77 78 79 80 81 82 180 Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb 181 Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb S(2p) Q(α ) Q(2β − ) 507 Q(β − n) Q(ε p) ∗ −1040# 640# 17780# 400# −170# 300# 15550 100 1100 40 13528.1 1.7 2080.4 1.5 11698 15 2643 15 10416 15 3006 15 8870 40 3660 40 7480 30 4260 30 5770 30 5000 30 4478 30 5573.4 2.6 3040 60 6120 50 1967 19 6577 5 790# 160# 7020 50 −769 28 7790 14 6230# 400# ∗ 2746 10 −14190# 500# 164 15 −10160# 300# −2028 15 −8744.0 1.8 −4850 30 −5407 15 −6870 22 −4815 15 −9400 30 −1219 28 −11548 20 −1130 30 −13930 60 2730 30 −15681 17 2663 19 −17570# 130# 6430 60 −19885 27 5765 20 ∗ 9510# 110# ∗ 9060 80 −1200# 400# −5381 10 −5524.7 2.0 −8792 3 −8880 30 −12220 30 −11780 30 −15570 26 −14953 25 −18519 17 −17620 90 −21060 28 ∗ ∗ 10270# 590# 11570# 300# 12818 5 13724.95 0.19 14785 3 15740 30 16460 40 17213 24 18173 23 19036 18 19545 21 20280 80 21120 50 ∗ ∗ −1220# 780# 18190# 590# −190# 500# 16170# 300# 830 50 14060.7 1.8 1803.8 1.5 12555.2 0.8 2379.5 0.9 10992 16 2755 16 9441 25 3400 40 7900 30 4190 30 6386 30 4786 30 4892 18 5416 10 3483 26 6052 18 2130 30 6344 30 1330 50 6718 8 −210# 210# 7570# 220# 7460# 500# ∗ 4060# 300# ∗ 1302 5 −12240# 400# −1168 16 −8063 10 −3780 25 −7312.3 2.1 −6283 24 −4148 16 −8509 27 −3368 29 −10756 20 107 24 −13125 20 287 30 −15342 29 3993 19 −16650 50 4011 26 −18920# 200# 7787 29 ∗ 6740 70 ∗ 11030# 200# 30# −4150# −4691 −8036 −8022 −11720 −11111 −14840 −14151 −18010 −16707 −20240# −19940 ∗ 70 71 72 73 74 75 76 77 78 79 80 81 82 10850# 400# 12490 70 13486.77 0.17 14572 15 15371 16 16330 40 16955 26 17868 29 18581 15 19410 60 20071 19 20790# 160# 21650 30 ∗ 17150# 14668 13171 11778 9910 8521 6900 5468 3922 2825 1660# 200 410# 10 3 4 26 25 40 20 29 18 130# 25 −330# 570# 260 120 1280.8 1.7 2026.2 2.6 2508 4 3100 40 3860 30 4660 40 5240 30 5840 18 6258 4 6710 50 7415 15 5380# 400# ∗ 2250 70 −12370# −144 4 −10660# −3097 22 −7161 −5286 21 −6462 −7860 30 −2762 −9923 23 −2344 −12380 30 1320 −14191 18 1295 −16190# 120# 5192 −18306 25 4730 ∗ 8260# ∗ 7690 510# 300# 6 4 22 26 30 21 24 17 120# 30 −3410# 400# −4280 70 −7493.4 0.4 −7704 16 −11130 25 −10891 28 −14353 23 −13785 24 −17555 20 −16750 30 −20020 50 −19480# 230# ∗ 70 71 72 73 74 75 76 77 78 79 80 81 82 10570# 500# 11820# 300# 13082.58 0.17 14218.0 2.1 15093 16 16068 27 16680 40 17537 28 18254 17 19062 26 19880 30 20640 40 21290# 220# ∗ 17720# 15570# 13955 12360 10723 8830 7460 5932 4372 2975 2427 800 590# 300# 5 5 13 40 40 23 23 18 19 90 −470# 640# 300# 420# 1152.4 1.8 1522.5 2.2 2211 5 2787 13 3720 40 4370 40 5150 5 5751.3 2.9 6284 4 6324 9 7210 50 6570# 400# ∗ 3700# 300# ∗ 842 5 −10300# −1930 13 −9050 −4700 30 −5755 −7040 29 −4864 −9180 30 −1200 −11600 30 −920 −13713 21 2695 −15070 22 2817 −17520 90 6486 ∗ 5506 ∗ 9810 400# 70 5 13 30 30 25 29 19 23 90 −2230# 410# −3020# 300# −6547.0 2.5 −6868 4 −10486 22 −10224 24 −13650 40 −13107 28 −16850 26 −15698 24 −19330# 120# −18933 23 ∗ 410# 10 1.9 0.7 30 30 40 30 28 18 120# 19 230# 500# 300# 5 15 15 30 29 27 15 60 21 120# 50 508 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 182 Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb 71 72 73 74 75 76 77 78 79 80 81 82 5210# 6718 6062.94 8065 7010 9130 7650 9866 8501 10986 8620 11750 360# 6 0.11 5 100 40 30 22 28 18 80 90 8320# 8610# 6310.3 7094.9 4480 5387 2790 3990 1215 2994 −20 1314 450# 300# 2.1 1.7 100 25 40 30 25 22 80 17 3570# −1449 −7382 −12078 −17150 −21033 −25700 −29343 ∗ ∗ ∗ ∗ 220# 23 21 16 100 24 80 21 13240# 11340 14066.0 11399.5 14910 11940 16018 12519 16846 12731 17600 13290# 450# 70 2.1 2.1 100 30 29 27 23 23 80 120# 9400# 7870 8902.7 6982.9 8720 6840 8832 6772 8827 6240 8430 6340 360# 8 2.1 2.2 100 30 28 19 22 19 80 50 5370# 6000# 8277 7870.8 10570 10341 13180 12497 15423 14334 17250 15740 540# 300# 5 2.2 100 27 30 24 23 13 80 30 183 Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb 71 72 73 74 75 76 77 78 79 80 81 82 5720# 5300 6934.18 6190.82 8430 7120 9220 7674 9957 8295 11310 8810 360# 30 0.20 0.09 100 50 30 22 23 13 80 30 ∗ 8700# 6527 7222.7 4852 5500 2880 4010 1307 2788 300 1510 200# 6 1.7 8 110 30 26 19 22 14 80 6290# 380 −5099 −10595 −15624 −19860 −23610 −28200 ∗ ∗ ∗ ∗ 300# 60 25 16 13 50 27 30 12030# 12160# 12826.6 12785.4 13154 13560 14070 14410 14899 14782 14785 15943 500# 300# 2.1 1.7 9 50 40 30 18 22 18 30 9750# 8260 9356.3 7433.2 8698 7040 9030 7069 9113 6661 8521 6700# 500# 80 2.1 2.1 9 50 30 27 15 23 17 120# ∗ 6770# 7040 9067.8 8772 11630 11290 14233 13437 16283 14656 18320 400# 70 2.2 8 50 30 26 24 14 23 30 Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi 71 72 73 74 75 76 77 78 79 80 81 82 83 4960# 6290 5617 7411.60 6487 8660 7480 9631 8203 10621 8370 11550 ∗ 500# 50 26 0.26 9 50 40 24 25 13 50 30 ∗ 9270# 6840 7700.2 5149 5734 3240 4420 1835 3451 370 1747 −1330# 300# 40 1.7 4 8 60 30 27 15 50 17 130# 7820# 2750 −3230 −8375 −13908 −17907 −22730 −26287 −31370# ∗ ∗ ∗ ∗ 400# 40 40 18 23 10 60 23 130# ∗ 11090# 13928 11436.8 14732 11900 15710 12430 16561 12662 17400 13020 18580# 200# 27 1.7 4 100 40 28 27 23 50 80 130# 9300# 8100# 9435 7598.4 8891 7119 8810 7000 8920 6386 8640 6620 9060# 570# 300# 26 1.7 6 13 40 30 27 22 50 16 160# ∗ 4990# 7550# 7351.0 9861 9644 12550 11870 14800 13672 16630 15262 19490# 400# 300# 2.2 5 5 30 40 30 18 50 21 130# Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi 72 73 74 75 76 77 78 79 80 81 82 83 4930# 6626 5753.69 7667 6624.53 8800 7420 9620 7898 10940 8567 11330# 200# 30 0.30 4 0.28 40 40 30 19 70 22 140# 9240# 7180 7837 5403.8 5872 3368 4360 1820 3146 700 1950 −1540# 450# 40 26 0.9 4 28 50 30 27 50 50 50# 4450# −1060 −6710 −11955 −16634 −20580 −25140 −29650# ∗ ∗ ∗ ∗ 200# 30 40 26 16 60 40 60# 11880# 12600 12617.2 13255.7 13712 14040 14220 14620 14722 14750 15757 16070# 360# 30 1.7 0.9 8 60 50 30 19 50 19 60# 8390# 9526 7907.6 9289.4 7500 9140 7230 9170 6989 8680 6670 9480# 280# 16 1.7 0.9 100 40 50 30 26 50 80 60# ∗ 6130# 8315 8257.5 11084.6 10760 13570 12830 15640 14190 17681 16790# 200# 6 1.9 1.0 110 50 30 22 60 19 90# 185 S(p) Q(d,α ) Elt. 184 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) 182 Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb 71 72 73 74 75 76 77 78 79 80 81 82 11340# 12413 13639.7 14746 15750 16393 17220 17876 18847 19474 20090# 21030 183 Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb 71 72 73 74 75 76 77 78 79 80 81 82 184 Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi 185 Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi S(2p) Q(α ) Q(2β − ) 509 Q(β − n) Q(ε p) ∗ −190# 450# 16230# 400# 1215 12 14330 70 1484.8 2.9 13037.1 2.2 1771.8 2.2 11090 100 2630 100 9543 22 3382 27 7790 30 4180 30 6388 26 4952 5 4901 30 5526 4 3718 15 5997 5 2330 80 6550 50 1159 20 7066 6 4550# 2189 −990 −3638 −6400 −8440 −10751 −12593 −14950 −16750 ∗ ∗ 200# 6 100 22 100 27 29 18 80 17 ∗ −12500# 400# −8980# 300# −8124.6 2.2 −4290 100 −3644 22 171 24 90 40 3880 30 3510 18 7230 80 6546 21 −2540# −5688 −6251 −9807 −9970 −13210 −12748 −16369 −15711 −18846 −18280 ∗ 10930# 420# 12020 30 12997.12 0.23 14256 5 15442 15 16250 60 16870 40 17540 22 18458 23 19281 17 19929 14 20570 90 ∗ −350# 590# 17020# 400# 710# 300# 15130# 300# 1343 5 13533.1 2.2 1680.0 2.2 11947 8 2130 8 9990 50 3220 50 8264 28 3960 40 6800 40 4823 9 5293 28 5465.6 3.0 4003 17 6039 4 3294 22 5940 17 1490 30 6928 7 5770# 3080 515 −2700 −5614 −7890 −10010 −11973 −13600 −16231 ∗ ∗ 300# 30 8 50 26 50 27 18 14 29 ∗ ∗ −10710# −7597 −6667 −2700 −2040 1548 1576 5081 4425 8718 −1540# 300# −4920 30 −5119.9 1.7 −8990 100 −9273 23 −12680 50 −12099 30 −15543 26 −14682 14 −18520 80 −17832 17 ∗ 71 72 73 74 75 76 77 78 79 80 81 82 83 10680# 450# 11590 40 12551 26 13602.42 0.27 14920 100 15790 22 16700 30 17306 24 18160 30 18916 14 19680 90 20362 20 ∗ ∗ ∗ 15540# 200# 14227 6 12371 5 10586.6 1.1 8740 110 7301 28 5840 30 4758 19 3160 50 2047 17 180# 150# ∗ 480# 400# 1420 80 1656.2 2.2 2285 5 2963 4 3800 40 4602 9 5234 5 5662 4 6290 50 6774 4 8020 50 6430# 400# ∗ 4210 40 ∗ 1385 26 −10610# 300# −1451.2 1.0 −9710 30 −4616 28 −6219 5 −6924 18 −5178.1 1.1 −9290 40 −1089 29 −10983 21 −960 50 −13430 50 2590 30 −15304 17 2134 19 −17930# 140# 6010 50 ∗ 5466 16 ∗ 10350# 130# −1200# −4280 −4546 −7968 −8640 −12130 −11910 −15217 −14590 −17833 −17390 ∗ ∗ 72 73 74 75 76 77 78 79 80 81 82 83 11220# 12243 13165.3 14154 15290 16280 17050 17823 18519 19310 20120 ∗ ∗ 16450# 300# 14680 30 13104.0 1.9 11020.3 1.0 9102 29 7600 60 6250 40 4981 22 4150 50 2319 18 200# 50# 60# 450# 920# 300# 1597.3 2.2 2194.6 1.9 3020 5 3750 30 4440 50 5180 5 5774 5 5690 50 6695 5 8160# 50# 5030# 200# ∗ 2426 14 −12270# 400# −580.3 1.0 −9180 40 −3487 28 −8270 26 −6130 40 −4391.0 1.0 −8470 40 −3398 28 −10510 40 280 40 −12110 60 450 40 −14635 22 3867 24 −17540# 80# 3270 60 ∗ 7519 19 ∗ 7380# 70# −3590# 200# −3760 14 −7234 4 −7637.3 0.5 −11270 28 −11070 30 −14440 50 −13589 28 −17360 50 −16780 60 −20660# 130# ∗ 210# 6 1.3 4 100 30 30 19 29 17 140# 25 200# 14 0.4 8 50 40 40 28 18 50 30 200# 6 8 50 110 27 23 18 22 30 200# 6 5 13 110 30 26 25 25 13 120 400# 40 26 8 50 25 30 21 24 14 60 510 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 186 Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi 72 73 74 75 76 77 78 79 80 81 82 83 6140# 5280 7191.2 6179.36 8261.4 6910 9250 7920 10435 8510 11211 9030# 360# 60 1.6 0.18 1.0 30 50 30 19 190 20 90# ∗ 7540# 8402 5829.5 6466.3 3653 4820 2320 3961 1300 2210 −1080 210# 14 0.9 0.9 17 40 50 28 190 60 80 6570# 560 −4645 −10215 −14460 −18980 −23183 −28550 ∗ ∗ ∗ ∗ 300# 60 22 21 11 190 25 80 10690# 13600 11043 14487.9 11938 15794 12460 16328 12490 16870 12910 18590 500# 70 26 0.9 4 17 40 28 25 180 50 80 7960# 9540 7650.6 9300.9 7676 9350 7200 8922 6512 8470 6770 9260 420# 70 2.3 0.9 8 50 30 26 15 180 15 80 ∗ 6560# 6420 9012.3 9013.9 12284 11440 14130 12880 15640 14765 19060 300# 30 1.9 1.2 18 50 30 19 180 14 80 Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi 72 73 74 75 76 77 78 79 80 81 82 83 4630# 6230# 5466.54 7356.8 6290.0 8614 6920 9360 7650 10320 8370 11280 500# 210# 0.11 1.0 0.6 18 40 30 18 180 14 80 ∗ 7620# 8590 5995.1 6577.0 4005 4830 2430 3692 1193 2080 −1019 360# 60 1.3 1.0 6 30 30 25 14 180 19 8230# 2950# −3192 −8211 −13100 −17272 −21733 −26632 ∗ ∗ ∗ ∗ 400# 200# 28 25 14 10 29 29 ∗ 12300# 12202 12884.8 13314.8 13804 14330 14390 14460 14443 15490 15879 280# 14 1.2 1.0 6 40 50 30 18 50 22 8290# 9600# 7801 9355.6 7873 9404 7760 9190 7065 8770 6770 9536 570# 200# 26 1.2 4 6 40 30 26 13 50 21 ∗ 5290# 7240 7272 10135.5 10157 13190 12250 14861 13522 17016 16160 450# 40 26 1.2 7 28 40 23 24 13 50 Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po 72 73 74 75 76 77 78 79 80 81 82 83 84 5970# 5120# 6834 5871.75 7989.56 6684 9181 7370 10155 7970 10907 8900 ∗ 640# 280# 3 0.12 0.15 9 28 30 18 30 13 50 ∗ 8120# 9190# 6400.4 7209.68 4399 5396 2880 4486 1520 2661 −490 1454 450# 200# 1.3 0.15 7 8 30 28 40 13 50 25 10260# 4520# −844 −6715 −10935 −15980 −20008 −25100 −29663 ∗ ∗ ∗ ∗ 500# 200# 6 20 12 30 12 50 23 ∗ 13330# 10650 14204.2 11504.6 15382 12061 16274 12224 16900 13090 18190 13340 360# 60 1.3 1.0 7 17 30 24 30 180 50 80 ∗ 9410# 7593 9237.6 7549.8 9345 7377 9250 6529 8690 6800 9200 6540# 280# 15 1.2 1.0 7 28 50 28 40 50 50 50# ∗ ∗ 5340# 8026 7899.7 11140 10633 13680 12130 15170 14007 18200 16649 200# 14 1.2 7 5 30 40 40 19 70 25 Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po 73 74 75 76 77 78 79 80 81 82 83 84 6090# 4880 7033 5920.3 8196 6732 9352 7500 10330 8130 10930 8948 360# 200 8 0.5 14 12 29 40 30 40 70 29 8240# 8950# 6600 7258.2 4606 5444 3048 4620 1689 2820 −470 1500 590# 280# 9 0.5 13 13 21 40 16 50 50 50 6620# 1010 −4396 −9350 −13851 −18610 −23520 −28220 ∗ ∗ ∗ ∗ 300# 200 22 30 17 40 60 40 11870# 12000# 12638 12941.1 13476 13943 13840 14090 14226 15280 15630 15669 500# 280# 8 0.5 13 13 30 40 18 40 50 27 9470# 7990 9396 7808.9 9410 7554 9147 6950 8801 7180 9480 6620 420# 210 8 1.1 13 20 30 40 16 190 60 80 ∗ 6600# 6280 9170.6 9124 12163 11237 13880 12759 16310 15780 18912 360# 60 1.4 13 11 26 40 24 40 190 25 188 189 S(p) Q(d,α ) Elt. 187 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z 186 Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi 72 73 74 75 76 77 78 79 80 81 82 83 11070# 11910 12944.9 13846 14886.0 15700 16675 17540 18333 19450 19779 20360# 300# 70 1.6 4 1.0 30 28 30 15 190 18 150# ∗ 16770# 15590 13667 11870.1 9524 8186 6680 5785 4450 2910 860 Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi 72 73 74 75 76 77 78 79 80 81 82 83 10770# 11510# 12657.7 13536.2 14551.5 15523 16170 17280 18085 18830 19581 20300# 450# 200# 1.6 1.0 1.1 29 50 40 21 50 18 60# ∗ ∗ 16120# 14397 12406.4 10472 8482 7250 6010 5154 3382 1200 Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po 72 73 74 75 76 77 78 79 80 81 82 83 84 10590# 11350# 12300 13228.6 14279.6 15298 16101 16729 17805 18300 19277 20180 ∗ 590# 210# 3 1.0 0.6 18 22 29 16 190 15 90 Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po 73 74 75 76 77 78 79 80 81 82 83 84 11210# 11720 12905 13909.8 14880 15910 16720 17660 18301 19040 19830 ∗ 360# 200 8 0.5 14 30 30 40 14 40 60 187 188 189 S(2n) S(2p) Q(α ) Q(2β − ) 511 Q(β − n) Q(ε p) 410# 40 26 1.2 17 22 30 21 190 15 90 ∗ 850# 1124 2078.1 2823.1 3850 4320 4912 5205 5690 6470 7757 210# 7 1.9 1.2 100 18 14 11 190 6 12 6080# 3320 489.9 −2757 −5135 −7458 −9325 −11520 −13858 −17020 ∗ ∗ 300# 60 1.4 17 22 27 24 190 16 200 ∗ ∗ −11440# −7823 −6898.8 −2640 −2344 1330 850 4390 4206 9300 200# 14 1.2 17 22 30 40 190 19 90 −3110# −3290 −6758.7 −7192.2 −10735 −10560 −14070 −13610 −16850 −16720 −20540# ∗ 300# 60 1.5 0.5 28 40 30 26 60 190 50# 200# 14 1.2 6 28 40 40 27 18 60 ∗ 330# 960 1655.5 2723.9 3670 4520 4770 5230 5318 6395 7789 360# 30 2.1 1.2 10 60 30 14 8 6 14 6920# 4450# 1313.4 −1500 −4505 −6711 −8600 −10562 −13138 −16070 ∗ ∗ 400# 200# 1.3 6 28 26 30 26 16 17 ∗ ∗ −10760# −9900 −5997.6 −5075 −1002 −1120 2458 1982 6270 6530 300# 60 1.3 6 28 30 26 22 14 190 −2450# −2330# −6045.9 −6287.6 −10117 −9923 −13070 −12537 −16000 −15834 −19880 ∗ 410# 200# 1.5 0.6 17 23 30 28 180 14 80 ∗ ∗ 16810# 14990 13204.8 10976 9401 7706 6915 5210 3854 1590 435 300# 60 1.3 7 5 26 25 40 15 190 22 ∗ 170# 410 1400 2146.0 3474 4008 4890 4705 5550 6109 7255 8082 450# 40 26 1.2 8 5 30 17 40 3 7 13 7790# 5200# 2469 −688 −3313 −6027 −7621 −9950 −12386 −15140 −17277 ∗ ∗ 500# 200# 3 7 5 22 13 40 16 60 22 ∗ ∗ −12970# −9540# −8520.6 −4401 −3894 126 −780 3370 3013 7950 7153 400# 200# 1.3 7 5 21 30 40 17 50 21 −2180# −1980# −5523 −5869.28 −9492 −9686 −12889 −12254 −15830 −15440 −19513 ∗ ∗ 540# 200# 3 0.12 6 29 26 25 14 30 19 ∗ 17070# 15790# 13658.6 11815 9843 8444 7500 6175 4340 2200 1013 450# 200# 1.4 13 11 21 40 27 40 50 24 ∗ 460# 993 1979.4 2944 3901 4330 4630 4840 5870 7269.8 7701 280# 16 1.3 13 11 30 50 28 40 2.8 15 6150# 3510 475 −2502 −4871 −6850 −8980 −11750 −14540 −16460 ∗ ∗ 300# 200 15 11 24 40 23 50 60 40 ∗ −11890# −11450# −7607 −6726 −2636 −2543 900 410 5030 5000 9111 540# 200# 3 13 11 21 30 23 40 60 24 −1230# −4530 −4913 −8729 −8701 −12254 −11451 −15360 −14858 −18740 −17590 ∗ 300# 200 8 7 14 23 23 50 15 60 60 512 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z 190 Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po 73 74 75 76 77 78 79 80 81 82 83 84 4900# 6890 5660 7792.26 6369 8912 7371 9810 7800 10610 8910 11219 500# 260 150 0.19 13 10 26 40 50 40 190 26 ∗ 9760# 7380 8017 5054.8 6159 3687 5077 1990 3104 310 1790 340# 250 8 1.2 13 18 26 60 16 190 60 8090# 3030 −2680 −7336 −12420 −16906 −21980 −26807 ∗ ∗ ∗ ∗ 400# 160 150 16 50 13 190 21 12930# 10230# 13810 11020.6 15096.0 11715 15652 11641 16580 12640 17620 13350 640# 260# 150 0.6 1.3 8 16 26 50 30 180 50 9190# 7330# 9200 7373.4 9331.0 7256 8700 6499 8650 6891 8940 6674 570# 260# 150 0.5 1.3 8 30 30 50 15 180 20 ∗ 4330# 6850# 6844.8 10110.9 9541 12481 10990 14320 13347 17190 16063 430# 250# 1.4 1.3 6 17 30 60 18 180 16 191 W Re Os Ir Pt Au Hg Tl Pb Bi Po 74 75 76 77 78 79 80 81 82 83 84 4890# 6850 5758.72 8026.5 6446 9000 7294 10020 7900 10410 8562 260# 150 0.11 0.4 6 40 28 50 40 180 17 9740# 7340 8120 5289.1 6236 3770 5001 2200 3200 112 1440 450# 170 150 1.1 4 40 28 18 60 14 180 4590# −540 −5801 −10425 −15450 −20570 −25539 ∗ ∗ ∗ ∗ 200# 40 23 8 40 40 25 11430# 11840 12295 12989.8 13466 13380 13700 14060 15070 15350 15720 360# 200 8 1.1 13 40 30 30 40 40 60 7570# 9183 7486.5 9294.1 7494 8880 6570 8785 6960 9439 7020 280# 11 0.6 1.2 8 40 30 14 50 13 50 5410# 5110# 7920 7956.1 11085 10170 12876 11666 15600 14750 18408 540# 200# 3 1.2 4 40 23 22 40 30 15 192 W Re Os Ir Pt Au Hg Tl Pb Bi Po 74 75 76 77 78 79 80 81 82 83 84 6610# 5430# 7558.1 6198.11 8666 7040 9490 7660 10380 8380 11089 630# 200# 2.1 0.11 3 40 27 30 40 30 16 ∗ 7890# 8821 5728.4 6875.4 4368 5490 2570 3564 590 2120 280# 10 1.1 1.9 16 40 40 15 50 14 6640# 1070# −3869 −8960 −13737 −19230 −23940 ∗ ∗ ∗ ∗ 600# 200# 16 30 13 40 20 9720# 13300# 10400 14583.9 11169.1 15258 11581 16210 12490 17580 13540 720# 260# 150 1.1 1.9 17 22 40 50 40 180 7040# 8630# 6961 9016.2 7024 8571 6435 8620 6910 9200 6850 670# 280# 8 1.1 13 19 25 50 17 50 60 ∗ 5770# 5240 8791 8338.9 11323 10118 13360 12720 16700 15450 360# 200 8 2.1 20 19 40 40 30 40 193 Re Os Ir Pt Au Hg Tl Pb Bi Po At 75 76 77 78 79 80 81 82 83 84 85 6670# 5583.41 7771.92 6255.5 8689 7111 9520 7710 10400 8360 ∗ 280# 0.20 0.20 1.9 19 22 120 50 30 40 7940# 8970# 5942.3 6932.8 4390 5563 2600 3610 606 2100 −640 630# 200# 2.3 0.4 11 22 110 60 16 50 60 3090# −2342 −7210 −12280 −17521 −22690 −27170 ∗ ∗ ∗ ∗ 200# 16 110 50 14 40 120 11520# 11667 12570.7 12940.2 13014 13470 13980 14800 15080 15590 15620 280# 10 1.1 0.4 12 40 110 50 40 40 60 8860# 7040 9036.6 7138.2 8793 6695 8920 7000 9408 7410 9280 260# 150 1.1 0.5 12 22 110 70 15 190 60 4010# 6550 6680 9875.7 9003 11919 11210 14820 14110 17700 16400 450# 160 150 1.2 11 16 110 50 50 40 190 194 Re Os Ir Pt Au Hg Tl Pb Bi Po At 75 76 77 78 79 80 81 82 83 84 85 5320# 7111 6066.79 8357.4 6939 9213 7580 10080 8190 10720 9110 360# 3 0.11 1.7 15 20 170 50 50 40 190 ∗ 9420# 6425.6 7518.3 5074 6088 3070 4180 1080 2421 120 200# 2.3 1.7 10 16 140 110 70 16 190 4710# −240 −5700 −10556 −16270 −21188 −25640 ∗ ∗ ∗ ∗ 300# 13 140 17 50 18 230 12810# 9990# 14062.0 10780.9 14742 11294 15900 12380 17280 13250 17590 670# 200# 2.3 1.7 10 20 140 40 50 40 190 8420# 6780 8728.5 6807.3 8300 6480 8630 6937 9120 7099 8730 360# 10 1.1 1.7 11 40 140 19 60 15 190 ∗ 4330# 7466 7277.0 10091 9151 12630 12032 15940 14890 17700 200# 10 1.6 10 13 140 29 50 40 190 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(2n) 190 Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po 73 74 75 76 77 78 79 80 81 82 83 84 10990# 11770 12690 13712.5 14566 15643 16723 17311 18130 18744 19840 20167 191 W Re Os Ir Pt Au Hg Tl Pb Bi Po 74 75 76 77 78 79 80 81 82 83 84 192 W Re Os Ir Pt Au Hg Tl Pb Bi Po S(2p) Q(α ) Q(2β − ) 513 Q(β − n) Q(ε p) ∗ 18000# 530# 16330# 250# 14617 3 12313.0 1.3 10765 6 9131 17 8125 17 6610 50 4793 17 3130 190 1326 17 ∗ 6900# −290# 340# 4410 620 160 1180 1378.3 1.4 −1383 2754.1 1.5 −3870 3251 6 −5953 3867 23 −8550 4069 27 −10954 4960 50 −13430 5697 5 −15854 6862 5 ∗ 7693 7 ∗ 430# 160 150 6 16 17 50 20 190 18 ∗ ∗ −11030# −10520 −6062 −5627 −1717 −2176 1960 1920 6410 6030 330# 200 8 6 20 19 50 40 180 40 −1260# −4390 −4650 −8325 −8339 −11813 −11320 −14840 −14530 −18430 −17560 ∗ 11780# 280# 12513 13 13550.99 0.22 14396 13 15357 12 16370 40 17100 40 17821 13 18510 50 19320 50 19781 25 ∗ 17100# 15490 13306 11291 9930 8688 7277 5190 3216 1750 −550# 450# 5280# −10# 200# 2358 1086.1 1.4 −696 2084.4 1.2 −2900 3095 4 −5105 3480 40 −7530 3700 40 −10350 4299 26 −13041 5450 40 −15190 6778 3 ∗ 7501 11 ∗ 200# 10 4 40 23 40 50 11 40 ∗ −12980# −9390 −8430 −4281 −4350 −559 −689 3840 3800 8074 400# 160 150 4 40 23 18 40 50 16 −3620# 250# −3714 10 −7713.9 1.2 −7454 6 −10888 16 −10510 40 −14330 50 −13935 14 −17410 190 −16748 15 ∗ 74 75 76 77 78 79 80 81 82 83 84 11500# 12280# 13316.8 14224.6 15112 16038 16784 17680 18282 18790 19651 ∗ −1200# 780# 6230# 600# ∗ 17620# 450# −320# 280# 3130# 200# ∗ 16160 160 362 4 412.4 2.9 −12060# 200# 13840 150 1758.0 1.2 −2057 16 −7774 10 12164.5 2.1 2418.6 2.2 −4281 16 −7188.1 2.1 10603 16 3127 17 −6900 40 −3359 16 9266 17 3387 16 −9455 20 −3602 16 7570 40 4000 40 −12330 50 650 50 5763 20 5221 5 −14485 17 748 26 3790 60 6376 5 ∗ 5450 30 2232 17 7319 5 ∗ 4890 40 −3370# 600# −3390# 200# −7245.4 2.3 −7207 4 −10550 40 −10255 28 −13802 17 −13700 50 −17387 15 −16560 30 ∗ 193 Re Os Ir Pt Au Hg Tl Pb Bi Po At 75 76 77 78 79 80 81 82 83 84 85 12100# 200# 13141.5 2.1 13970.03 0.23 14922 4 15730 40 16601 27 17180 110 18090 60 18775 12 19450 40 ∗ ∗ 16860# 200# 14763 10 12661.2 1.1 11266 11 9931 16 8090 120 6180 50 4170 12 2690 50 1480 50 −2490# 200# −6630.7 2.3 −6312.3 1.9 −9772 16 −9454 19 −13250 40 −12830 110 −16720 60 −15873 15 ∗ ∗ 194 Re Os Ir Pt Au Hg Tl Pb Bi Po At 75 76 77 78 79 80 81 82 83 84 85 11990# 360# 12695 3 13838.71 0.23 14612.9 2.5 15628 19 16324 20 17100 140 17794 21 18590 60 19076 17 ∗ ∗ 17360# 15400# 13460.6 12007 10478 8630 6774 4700 3027 2220 450# 160 150 0.5 7 7 26 20 60 16 190 24 620# 250# 2.1 0.4 5 22 22 60 17 190 18 300# 200 8 4 40 25 21 50 13 40 600# 200# 2.6 10 13 140 23 60 18 190 −900# 360# 4230# 200# ∗ −340 200 1084.4 2.3 −11030# 600# 1019 8 −1139 11 −10120# 200# 2083.5 1.2 −3426 15 −5885.5 2.3 2634 17 −6080 110 −5850 11 3007 19 −8860 50 −2047 16 3840 110 −11450 110 −1830 110 5010 60 −13830 60 2530 50 6304 5 −15730 60 2710 30 7093 4 ∗ 6910 40 7490 6 ∗ 6110 60 −1320# −560 610 1518.3 2064 2706 3630 4738 5918 6987 7291 500# 4980# 160 2330.4 150 −267 1.6 −2570 10 −5440 14 −7985 140 −10840 17 −13203 5 −14800 3 ∗ 20 ∗ 300# 2.6 10 13 140 21 140 21 190 ∗ ∗ −9520# −8659.5 −5017 −5005 −720 −446 4040 3900 7400 450# 170 150 13 11 21 40 19 60 60 190 −2230# 300# −5970.2 2.0 200# −6123.6 0.3 2.6 −9440 11 10 −9282 18 13 −12950 110 140 −12700 140 23 −16406 20 120 −15700 60 50 −18930 60 190 ∗ 514 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(p) Q(d,α ) Q(p,α ) Q(n,α ) Elt. Z 195 Os Ir Pt Au Hg Tl Pb Bi Po At Rn 76 77 78 79 80 81 82 83 84 85 86 5330 7231.86 6105.04 8379 6878 9400 7578 10100 8140 10360 ∗ 500 0.06 0.12 10 26 140 29 50 40 190 9430# 6546.1 7556.5 5095.9 6027 3251 4180 1105 2370 −240 1040 580# 2.0 1.7 1.0 25 19 140 18 60 15 190 1310 −3535 −9083 −14546 −19930 −24679 −28780 ∗ ∗ ∗ ∗ 500 14 23 6 50 17 60 11320# 12413.6 12447.8 12617.8 13105 13607 14320 14880 15510 15590 15920 540# 2.3 1.7 2.0 25 21 110 50 40 40 70 6880# 9054.7 6900.4 8586.9 6641 8720 7020 9396 7340 9459 ∗ 540# 2.3 1.7 2.7 28 21 40 14 50 15 5610# 5670# 8730.1 7909.6 10939 10268 13944 13490 17130 15720 18780 780# 200# 2.6 2.0 23 21 28 30 40 30 50 196 Os Ir Pt Au Hg Tl Pb Bi Po At Rn 76 77 78 79 80 81 82 83 84 85 86 6660 5820 7921.92 6641 8898 7413 9718 8057 10470 8520 11170 500 40 0.13 3 23 18 27 25 40 60 50 ∗ 7040 8246.6 5632.1 6546 3786 4495 1580 2740 140 1842 500 1.7 3.0 3 26 20 30 14 70 18 3550 −1940 −7287 −13131 −18352 −23570 −27331 ∗ ∗ ∗ ∗ 40 40 14 25 13 60 21 9980# 13710 10592.6 14333.9 11146 15407 12180 16910 13230 17790 13870 300# 40 1.7 3.0 11 17 140 30 50 60 190 6890# 8820 6750.4 8201 6432 8418 6820 9050 7262 9300 6980 200# 40 1.7 3 11 20 110 60 16 70 60 ∗ 6510# 6391.6 9040 8297 11544 11337 14960 14370 17600 15980 200# 2.6 3 3 16 21 110 50 60 40 197 Ir Pt Au Hg Tl Pb Bi Po At Rn 77 78 79 80 81 82 83 84 85 86 6900 5846.29 8072.4 6785.6 8916 7459 9750 7950 10490 8570 40 0.27 2.9 1.5 20 15 26 50 80 60 7280 8270 5782.6 6690 3803 4541 1616 2640 160 1890 40 40 0.6 3 17 13 17 60 50 90 73 −5674 −11453 −17180 −22000 −26220 ∗ ∗ ∗ ∗ 26 6 8 50 50 60 12130 11978.2 12366.6 12740 13370 14117 14737 15380 15440 15660 500 1.7 0.7 3 28 15 25 50 60 60 9029 6970.9 8486.1 6585 8716 6940 9384 7500 9520 7530 20 1.7 0.7 11 21 140 19 70 50 200 4930# 7656.7 7034.6 9869 9567 13091 12790 16500 15290 18130 300# 2.6 1.7 3 19 14 140 50 70 60 198 Ir Pt Au Hg Tl Pb Bi Po At Rn 77 78 79 80 81 82 83 84 85 86 5630# 7557 6512.33 8485 7220 9373 7753 10190 8400 10780 200# 3 0.09 3 80 16 29 50 70 60 ∗ 8929 6448.7 7102.3 4240 4998 1910 3075 600 2180 20 0.6 0.5 80 22 28 19 70 50 1670# −3857 −10213 −15481 −20820 −24819 ∗ ∗ ∗ ∗ 210# 15 28 17 90 20 13170# 10240 13776.1 10896.4 15040 12157 16700 13250 17510 13400 200# 40 0.7 3.0 80 19 30 30 50 60 8730# 6646 8078.8 6479.6 8370 6969 9210 7414 9270 7109 540# 3 0.7 1.3 80 20 40 18 60 16 ∗ 5430 7754.1 7488.8 10720 10596 14430 13887 17000 15490 500 1.7 0.8 80 27 30 29 50 40 Ir Pt Au Hg Tl Pb Bi Po At Rn Fr 77 78 79 80 81 82 83 84 85 86 87 6650# 5556.0 7584.25 6663.9 8640 7250 9500 7813 10220 8360 ∗ 200# 0.5 0.15 0.3 80 30 30 29 70 60 ∗ 8860# 6476 7253.9 4394 5020 2037 3130 630 2130 −700 200# 3 0.6 28 80 19 40 50 80 40 3660 −2164 −8297 −14332 −19240 −23710 −27560 ∗ ∗ ∗ ∗ 50 27 12 23 60 70 40 ∗ 11586 12038.2 12304.8 13192 13820 14661 15183 15250 15540 16000 20 0.6 0.6 28 30 13 25 70 80 70 8740 6910 8416.5 6457.0 8631 7133 9426 7660 9520 7270 9650 60 40 0.7 3.0 28 29 18 30 50 90 40 ∗ 6530 5990 8746.8 8727 12245 12345 15792 14840 17600 16330 40 40 0.9 28 27 17 27 60 60 70 199 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(α ) S(2p) Q(2β − ) Z S(2n) 195 Os Ir Pt Au Hg Tl Pb Bi Po At Rn 76 77 78 79 80 81 82 83 84 85 86 12440 500 13298.65 0.13 14462.5 1.7 15318 11 16092 28 16980 110 17660 50 18293 11 18860 50 19470 60 ∗ ∗ −1000# 540# 15970# 200# 234 10 13982.2 2.6 1172.0 1.6 12614.2 2.0 1711.5 2.0 11101 23 2273 24 9339 17 3230 40 7241 28 4450 30 5280 110 5832 5 3460 60 6746 3 2181 13 7339 5 1150 60 7690 50 196 Os Ir Pt Au Hg Tl Pb Bi Po At Rn 76 77 78 79 80 81 82 83 84 85 86 11990 40 13050 40 14026.96 0.18 15021 11 15776 13 16810 140 17296 22 18160 50 18612 18 18880 200 ∗ ∗ −1060# 600# 4370 16460# 300# −160# 200# 1700 14792.7 2.6 808.1 2.6 −821 13189 3 1268 3 −3643 11642 3 2041 4 −6466 9813 16 2855 20 −9488 7746 19 4226 21 −11886 5760 140 5440 40 −14090 3845 22 6657 3 −15445 2510 80 7200 50 ∗ 1603 20 7617 9 ∗ 40 40 3 12 15 27 19 60 20 ∗ ∗ −10250 −6739 −6319 −2216 −1650 2857 2951 6810 5760 197 Ir Pt Au Hg Tl Pb Bi Po At Rn 77 78 79 80 81 82 83 84 85 86 12721 13768.21 14713.7 15684 16329 17177 17807 18430 19010 19730 ∗ 15310 500 14029.2 1.7 12322 3 10349 16 8327 24 6111 16 4220 50 2900 50 2030 70 −390# 200# 2873 545.3 2.6 119 967.8 1.7 −2800 1511 4 −5792 2628 19 −8654 3877 16 −11390 5210 110 −13340 6412 4 −14830 7100 50 ∗ 7410 50 ∗ 20 3 16 6 18 50 50 80 198 Ir Pt Au Hg Tl Pb Bi Po At Rn 77 78 79 80 81 82 83 84 85 86 12530# 13403 14584.7 15270.4 16140 16832 17500 18142 18890 19344 ∗ 16200 14720 12884.9 10930 8801 6450 4691 3240 2334 40 40 0.8 80 15 30 22 50 18 −690# 360# 3760# 100 4 1047 522.3 1.7 −2090 1383.8 0.8 −4904 2340 80 −8120 3718 19 −10577 5030 140 −12700 6309.3 2.1 −14243 6893.0 2.2 ∗ 7349 4 ∗ 200# 3 80 15 80 23 60 22 199 Ir Pt Au Hg Tl Pb Bi Po At Rn Fr 77 78 79 80 81 82 83 84 85 86 87 12280 13113 14096.58 15149 15860 16622 17253 18000 18620 19140 ∗ 20 0.8 28 27 20 24 50 80 70 ∗ −130 500 169.9 1.7 824.9 0.9 2086 28 3350 40 4932 7 6074.0 2.0 6780 50 7130 50 7810 40 200# 3 2.9 2.9 80 20 40 22 80 20 50 ∗ 3 ∗ 0.17 15405 3 13702.6 30 11496 27 9265 15 7035 50 5044 70 3710 90 2740 1470 Q(β − n) Q(ε p) A Elt. 20 0.30 1.2 23 21 24 10 60 50 80 515 3110 500 ∗ 880.2 2.0 −11430# 300# −1797 23 −7653.1 2.6 −4415 14 −7329.7 2.0 −7290 30 −3526 23 −10131 15 −3182 17 −12640 50 1190 27 −14547 11 1510 140 −16140 60 5840 40 ∗ 5220 50 ∗ 8780 50 4690 2155 −1036 −4319 −7260 −10010 −11980 −13700 −15580 ∗ ∗ 40 3 28 26 30 40 50 70 70 −5230 500 −4998.0 1.7 −8606 10 −8448 13 −12240 140 −12019 22 −15800 50 −15090 14 −17960 190 ∗ ∗ 500 3 3 12 27 28 27 60 40 −4660 −4710 −8148.7 −8211 −11743 −11854 −15408 −15010 −18070 −17060 ∗ 40 40 1.0 23 14 26 15 50 16 80 ∗ −9430 −8990 −5183 −4490 −211 520 4710 4380 7660 40 40 3 17 6 15 50 60 60 −3692 −7353.7 −7385.7 −11116 −11052 −14811 −14284 −17510 −16390 ∗ 20 3.0 2.9 13 22 25 15 80 50 ∗ ∗ −8603 −7821.0 −3640 −2798 1680 1986 5730 4840 −3470# −6838 20 −7112 0.8 −10685 80 −10820 15 −14434 30 −14080 18 −17200 50 −16220 50 ∗ 200# 3 3 16 80 17 60 50 80 ∗ ∗ −10560# −6928 −5766 −1563 −590 3546 3260 6670 6140 −2560 −5882 −6211.9 −10120 −10080 −13930 −13396 −16610 −15660 ∗ ∗ 40 3 0.5 80 30 40 21 50 50 200# 3 28 26 80 28 60 70 60 516 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z 200 Pt Au Hg Tl Pb Bi Po At Rn Fr 78 79 80 81 82 83 84 85 86 87 7282 6250 8028.40 7060 9087 7643 9811 8240 10560 8710 Pt Au Hg Tl Pb Bi Po At Rn Fr 78 79 80 81 82 83 84 85 86 87 5210 7200 6230.4 8205 7086 9117 7642 9873 8140 10600 50 50 0.5 16 25 28 16 26 70 110 Pt Au Hg Tl Pb Bi Po At Rn Fr Ra 78 79 80 81 82 83 84 85 86 87 88 6930# 6070 7753.92 6873 8747 7388 9471 7873 10270 8530 ∗ Au Hg Tl Pb Bi Po At Rn Fr Ra 79 80 81 82 83 84 85 86 87 88 Au Hg Tl Pb Bi Po At Rn Fr Ra 79 80 81 82 83 84 85 86 87 88 201 202 203 204 S(n) Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) 50 50 0.6 6 30 40 19 30 50 100 −360 −6900 −12550 −18060 −22237 −26490 ∗ ∗ ∗ ∗ 23 60 14 25 17 80 9930# 13350 10788.8 14617 11960 16391 13130 17200 13380 18060 200# 50 0.6 6 80 28 30 30 50 80 6529 8020 6501.0 8357 6962 9243 7597 9230 7200 9510 28 50 0.6 7 20 25 17 60 50 100 ∗ 6650 6564.7 9739 9944 13617 13441 16346 15000 18110 50 0.8 6 11 29 15 26 50 90 ∗ 7087 7680 4967 5499 2462 3444 1124 2370 −310 20 50 15 23 19 25 17 70 70 1520 −4985 −11138 −16393 −21190 −25010 ∗ ∗ ∗ ∗ 50 15 6 17 70 70 11370 11702 12142.6 13076 13510 14520 14984 15136 15460 15830 60 4 0.8 15 40 30 13 25 90 100 6940# 8371 6782.9 8636 7100 9498 7709 9548 7460 9690 200# 4 0.8 15 80 21 29 19 90 70 ∗ 5070# 7891 8046 11343 11720 15172 14226 17050 15910 200# 3 15 22 80 16 29 70 90 300# 170 0.21 21 24 25 16 29 70 90 ∗ 7950 8234 5609 6041 2760 3797 1355 2774 80 1670 170 3 15 17 30 21 29 19 90 90 3340# −3670 −9422 −15390 −19659 −23870 −27140 ∗ ∗ ∗ ∗ 300# 170 15 30 19 50 60 ∗ 12910 10630 14232 11825 16221 13157 17070 13420 17860 13800 170 50 15 10 23 28 30 30 50 100 6670# 7860 6613.2 8428 6990 9360 7738 9490 7410 9520 7320 300# 170 0.8 15 29 30 19 40 50 80 80 ∗ 5650 5693 8758 9260 12970 12950 15850 14586 17610 16380 170 3 15 8 30 30 30 29 70 90 6820 5994.6 7849 6924 8878 7454 9640 7957 10350 8650 170 1.6 15 10 30 30 30 29 50 100 7830# 8160 5704.3 6092 2895 3860 1528 2860 153 1790 300# 170 1.2 16 23 30 19 40 24 90 −1604 −7962 −13598 −18626 −22401 −25940 ∗ ∗ ∗ ∗ 22 26 12 24 27 80 11310 11843 12612.9 13106 14430 14820 15072 15340 15640 15750 50 4 1.2 16 30 30 13 25 70 110 8323 6860 8607.0 7126 9567 7930 9655 7690 9731 7380 20 50 1.3 9 24 40 19 30 21 110 ∗ 6980 7150 10364 11155 14583 13853 16441 15495 18290 20 50 7 22 28 27 28 29 80 5680# 7492.4 6656.10 8394 7200 9098 7783 9895 8324 10650 200# 1.7 0.29 6 30 28 27 28 29 80 ∗ 8836 6365.8 6637.5 3170 4083 1860 3110 520 2096 3 1.3 0.3 27 24 40 19 30 22 −80# −6357 −12471 −17126 −21280 −24388 ∗ ∗ ∗ ∗ 200# 11 24 14 40 19 12560# 10420 13710.7 11584 15977 13110 16760 13320 17590 13620 360# 170 1.2 15 27 23 28 30 30 50 7860# 6575 8181.3 6936 9450 7946 9514 7669 9540 7320 210# 3 1.2 15 30 19 25 17 70 70 ∗ 4700 7702 8199.9 12161 12571 15187 14187 17044 15770 50 3 1.2 30 25 28 16 26 70 20 50 0.12 29 29 27 28 60 60 90 9490 7170 7698.1 4790 5470 2430 3445 1060 2480 −350 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(2β − ) Q(α ) Elt. Z 200 Pt Au Hg Tl Pb Bi Po At Rn Fr 78 79 80 81 82 83 84 85 86 87 12838 13830 14692.3 15700 16336 17140 17624 18460 18918 ∗ 20 50 0.4 80 18 40 23 50 19 ∗ 16030# 14174 12044 9867 7450 5482 4200 3111 1780 200# 3 6 11 80 20 40 22 90 −750 −260 718.4 1667 3158 4702 5981.3 6596.4 7043.5 7620 40 60 0.9 6 11 27 2.0 1.4 2.6 50 2901 −220 −3261 −6678 −9289 −11380 −12948 −15110 ∗ ∗ 20 50 11 25 18 30 20 80 ∗ −10160 −9401 −5242 −3985 400 980 4522 3920 7650 Pt Au Hg Tl Pb Bi Po At Rn Fr 78 79 80 81 82 83 84 85 86 87 12490 13449 14258.8 15270 16170 16760 17453 18110 18700 19310 50 3 0.5 30 30 19 24 50 90 80 ∗ 16580 14849 12665 10289 7930 5875 4569 3440 2160 40 3 15 22 30 27 14 70 90 ∗ −558 334.3 1534 2858 4500 5798.9 6473.2 6860 7520 20 1.0 15 23 6 1.7 1.6 50 50 3920 781 −2405 −5766 −8733 −10626 −12450 −14390 ∗ ∗ 50 15 22 21 23 17 70 70 ∗ ∗ −8349 −7200 −3043 −1657 2429 2292 5590 5300 Pt Au Hg Tl Pb Bi Po At Rn Fr Ra 78 79 80 81 82 83 84 85 86 87 88 12140# 13270 13984.4 15078 15833 16510 17112 17750 18412 19120 ∗ 300# 170 0.5 16 14 30 20 40 22 90 ∗ ∗ 15321 13290 11007 8263 6259 4800 3898 2450 1360 20 50 8 21 18 40 23 60 60 ∗ −1000# 137 1174 2596 4340 5701.0 6353.7 6773.5 7389 8020 260# 3 15 8 80 1.7 1.4 1.9 5 60 4750# 1580 −1412 −5250 −8009 −10140 −11649 −13730 −15490 ∗ ∗ 300# 170 8 25 17 30 23 60 60 ∗ ∗ −10890 −6871 −5559 −840 45 3540 2961 6640 6000 Au Hg Tl Pb Bi Po At Rn Fr Ra 79 80 81 82 83 84 85 86 87 88 12885 13748.5 14722 15671 16267 16925 17517 18230 18880 ∗ 4 1.6 15 23 26 27 14 70 70 ∗ 16110 13938 11701 8936 6630 5325 4213 2927 1870 50 3 7 26 30 19 24 18 110 −1170 −302 908.9 2336 4090 5496 6210.1 6629.8 7260 7730 40 4 1.4 7 40 5 0.8 2.3 50 50 2618 −483 −4221 −7480 −9376 −11150 −13025 −14800 ∗ ∗ 3 7 22 27 25 40 20 80 ∗ −9960# −8650 −4730 −2846 1338 1280 4475 4160 7620 Au Hg Tl Pb Bi Po At Rn Fr Ra 79 80 81 82 83 84 85 86 87 88 12490# 13487.0 14505 15319 16080 16552 17430 17852 18680 19300 260# 0.6 15 8 30 18 40 23 60 60 ∗ 16670# 14520 12341.8 9262 6978 5720 4638 3380 2249 300# 170 1.1 30 14 30 21 40 23 ∗ −512 500 1969.5 3956 5484.8 6069.8 6545.5 7171.3 7636 20 50 1.2 27 1.4 1.5 1.9 2.5 8 3600# 419.5 −3679 −6776 −8790 −10349 −12480 −14038 ∗ ∗ 200# 1.3 26 11 40 18 30 21 ∗ ∗ −8492 −7129.6 −2195 −836 2380 2034 5483 4926 202 203 204 S(2p) Q(β − n) Q(ε p) A 201 S(2n) 517 60 3 6 11 40 30 27 27 90 −5579 −5790 −9516 −9891 −13516 −13230 −16210 −15540 −18840 ∗ 20 50 28 27 16 30 50 70 40 20 50 22 16 12 25 70 80 −4540 −4968 −8686 −9010 −12960 −12533 −15609 −14855 −18270 ∗ 70 3 6 19 30 21 25 16 110 50 15 8 25 27 30 18 50 90 −4270# −4810 −8235 −8797 −12589 −12279 −15206 −14590 −17940 ∗ ∗ 300# 170 15 27 17 21 17 80 70 300# 170 7 26 27 24 28 30 80 −3869 −7357 −7899 −12125 −11687 −14790 −13960 −17370 −16420 ∗ 3 15 8 21 26 40 21 50 60 3 1.3 26 13 30 30 27 28 −3550# −7000.4 −7631 −11641 −11430 −14241 −13790 −16917 −16100 ∗ 200# 1.3 6 22 40 16 30 21 80 518 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(4β − ) Q(d,α ) A Elt. Z S(n) S(p) 205 Au Hg Tl Pb Bi Po At Rn Fr Ra 79 80 81 82 83 84 85 86 87 88 6070# 360# 5669 4 7545.9 0.5 6731.67 0.11 8466 27 7247 23 9168 28 7800 50 9989 26 8290 90 ∗ 8830# 200# 6419.3 1.3 6713.09 0.21 3241 7 4130 30 1927 19 3130 60 615 17 2060 90 2310# 300# ∗ −4779 20 11567 −10849 15 12159.3 −16060 50 12701.9 −19752 11 14436 −23350 90 14742 ∗ 15050 ∗ 15160 ∗ 15561 ∗ 15690 206 Hg Tl Pb Bi Po At Rn Fr Ra Ac 80 6729 81 6503.8 82 8086.67 83 7038 84 8744 85 7519 86 9470 87 8004 88 10350 89 ∗ 9480# 7255 7253.8 3547 4409 2200 3433 820 2414 −380 300# 4 0.5 8 11 29 21 60 20 110 −2764 −9834 −14670 −18785 −21747 −25930 ∗ ∗ ∗ ∗ 22 21 15 29 20 70 207 Hg Tl Pb Bi Po At Rn Fr Ra Ac 80 3340 150 ∗ 81 6852 5 7377 82 6737.78 0.09 7487.8 83 8098 8 3558.0 84 7035 11 4407 85 8894 30 2350 86 7587 30 3500 87 9670 60 1020 88 8100 60 2510 89 10450 90 −280 21 0.6 2.1 10 23 30 50 60 60 930 −7791 −13821 −17210 −20680 −24370 ∗ ∗ ∗ ∗ 150 22 26 50 60 60 208 Hg Tl Pb Bi Po At Rn Fr Ra Ac 80 81 82 83 84 85 86 87 88 89 4950# 330# 3787 6 7367.87 0.05 6886.9 2.7 8395 7 7320 30 9088 28 7890 70 9900 60 8440 80 ∗ 7820 8004 3707.1 4704.1 2634 3694 1320 2730 70 209 Hg Tl Pb Bi Po At Rn Fr Ra Ac Th 80 81 82 83 84 85 86 87 88 89 90 3320# 4960 3937.3 7459.8 6967.7 8460 7352 9180 7930 9990 ∗ ∗ 7830# 8153.9 3799.0 4784.9 2699 3730 1410 2770 160 1550 21 0.4 0.06 10 22 25 50 29 90 360# 8 1.3 1.9 1.9 27 23 50 50 80 Q(p,α ) 5 1.3 0.4 10 29 30 50 25 90 10520# 200# 13148.0 1.4 11271.34 0.21 15793 8 13196 27 16625 23 13471 28 17450 30 13670 30 18170 70 Q(n,α ) 8710# 6980 8389.3 7077 9736 8088 9817 7740 9829 7560 420# 170 1.2 15 11 28 21 60 19 100 ∗ 5960# 300# 6230 170 9222.2 1.1 10568 16 14071 22 13408 25 15860 50 14928 29 17760 90 7062 7880.1 6839.8 9623 8222 9750 7912 9780 7568 9740 21 1.4 0.4 10 23 30 19 40 24 110 ∗ 6537 7130.1 11380 12251 14767 13838 16570 15372 18300 3 1.3 8 10 30 30 30 30 70 9400# 250# 8521 6 6758.12 0.23 9919.4 2.1 8386 27 9955 24 8110 40 10010 50 7790 60 9940 50 ∗ 5360# 200# 7884.7 1.3 9937.9 2.1 13610 7 13070 30 15349 28 14680 60 17170 60 16170 60 20 0.6 2.0 8 27 23 50 30 60 10520# 10402 6936.2 9764.1 8456 9880 8188 9910 7888 9790 420# 4 0.5 2.0 7 30 19 70 17 100 ∗ 7650# 300# 6185 4 10597.0 2.0 11947.0 1.3 14217 27 13507 23 15950 50 15070 50 17720 60 150 6 0.8 2.5 10 29 30 70 70 110 ∗ 12172 9502.7 10391.0 8526 10166 8355 10210 7960 10140 7850 22 1.4 0.8 8 11 29 21 60 50 120 ∗ ∗ 8977 20 9641.0 0.8 13065.9 1.4 12795 11 14900 22 14297 25 16620 50 15730 60 18580 100 13240# 11965 12079.5 14426.5 14627 14977 15050 15580 15560 16000 330# 7 0.5 2.1 10 29 30 70 60 100 150 5 2.0 2.5 27 24 50 50 80 4370# 300# ∗ −4258 26 14907 −12100 11 11215.4 −16200 50 15626.2 −19183 15 13269 −23250 60 16401 ∗ 13482 ∗ 17160 ∗ 13670 ∗ 17910 300# 2.2 0.8 2.4 7 30 18 70 50 110 8020# 200# ∗ −758 11 13290 −8686 20 14130 −14489 15 14904.2 −18220 50 14399.3 −21720 50 14977 −25430 100 15025 ∗ 15573 ∗ 15410 ∗ 16020 ∗ 16080 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) Q(α ) A Elt. Z S(2p) 205 Au Hg Tl Pb Bi Po At Rn Fr Ra 79 80 81 82 83 84 85 86 87 88 11750# 13161 14202.0 15126 15664 16340 16951 17700 18314 18940 206 Hg Tl Pb Bi Po At Rn Fr Ra Ac 80 81 82 83 84 85 86 87 88 89 12398 14049.8 14818.34 15503 15991 16690 17274 17990 18632 ∗ 207 Hg Tl Pb Bi Po At Rn Fr Ra Ac 80 81 82 83 84 85 86 87 88 89 10070 150 ∗ ∗ 13356 5 16860# 300# −315 14824.45 0.11 14742 4 392.3 15135 7 10811.8 2.1 3281.8 15779 21 7954 7 5215.8 16414 26 6759 23 5872 17060 60 5700 30 6251.1 17670 50 4450 50 6900 18440 100 3330 70 7270 ∗ 2140 50 7840 208 Hg Tl Pb Bi Po At Rn Fr Ra Ac 80 81 82 83 84 85 86 87 88 89 8290# 300# ∗ 10639.0 1.8 ∗ 14105.65 0.11 15381 14985 8 11194.9 15430 8 8262.0 16210 30 7041 16675 18 6044 17570 50 4820 17994 24 3749 18890 90 2580 209 Hg Tl Pb Bi Po At Rn Fr Ra Ac Th 80 81 82 83 84 85 86 87 88 89 90 8270# 8747 11305.2 14346.7 15363 15780 16440 17070 17830 18430 ∗ 300# 4 0.5 6 23 30 19 60 18 120 ∗ ∗ 15255 13078.9 9878 7300 6010 4980 3724 2580 ∗ −970 3 156 1.3 1468.3 7 3695 21 5324 26 6019.5 60 6390 14 7054.9 90 7490 Q(2β − ) 5070# 50 1483 3 −2759 1.2 −6261 17 −8090 10 −9800 1.7 −11662 50 −13550 2.7 ∗ 50 ∗ 20 ∗ −770# 300# 2840 0.6 16080# 200# −280 170 −2225 0.12 13673.1 1.3 1135.5 1.1 −5604 27 10260 8 3530 17 −7608 14 7650 8 5326.9 1.3 −9066 30 6330 30 5888.4 1.9 −11180 21 5360 18 6383.8 1.6 −12681 40 3950 40 6923 4 −14750 24 3029 23 7415 4 ∗ 1680 70 7940 50 ∗ 250# 9 1.3 2.0 7 23 30 50 70 70 6230 6 −979 1.3 −5306 2.1 −6812 2.5 −8515 3 −10400 1.6 −12170 50 −13970 50 ∗ 50 ∗ 519 Q(ε p) Q(β − n) ∗ ∗ −10360# 200# −6368.8 1.3 −4005 7 312 20 407 30 3330 50 3277 25 6530 90 −2130# 300# −6013 4 −6782.2 0.5 −11174 26 −10799 13 −13700 30 −13059 21 −16390 60 −15435 17 ∗ 20 8 8 22 17 30 23 80 ∗ −10790# −8787 −3496 −1701 1353 1105 4440 3990 7530 −5196 −6554.3 −10795 −10590 −13282 −12780 −15877 −15150 ∗ ∗ 150 6 7 22 27 60 60 70 ∗ ∗ −8795 −5090.3 −649 −504 2262 2290 5360 5080 300# 4 7 20 17 50 17 100 300# 4 8 8 22 25 30 50 70 −2040 −5320 20 −10495 2.1 −9944 7 −12798 23 −12198 27 −15460 50 −14480 60 −18040 60 ∗ 20 0.6 7 21 17 50 17 90 150 5 8 9 22 26 40 50 90 20 2.0 1.3 27 14 50 21 60 ∗ 8650# 300# ∗ 1580# 200# 2120.5 2.6 ∗ 516.9 1.3 −4278.9 1.3 −12820 150 3051.0 2.0 −6379 26 −5125 6 5215.3 1.3 −7822 11 −2306.6 1.3 5751.0 2.2 −9830 50 274 26 6260.7 1.7 −11362 19 209 13 6790 40 −13430 70 3290 50 7273 5 ∗ 3060 30 7730 50 ∗ 6310 80 −130# 300# −2368.9 1.7 −9765.3 2.1 −9795 7 −12298 22 −11930 40 −14880 50 −14270 70 −17490 50 ∗ ∗ ∗ 15970 150 11803 5 8492.0 1.4 7403 8 6361 21 5105 26 4090 60 2890 70 1610 110 ∗ 9270# 200# ∗ 2690# 300# 4620 8 ∗ 2248 4 −1248.5 1.9 −11810# 300# 3137.2 0.8 −5379 7 −8798.0 1.9 4979.2 1.4 −7437 20 −1906.5 1.4 5757.1 2.0 −9110 16 −1299 8 6155.5 2.0 −10780 50 1252 20 6777 4 −12610 50 1433 30 7144 4 −14650 110 4210 50 7730 50 ∗ 4220 70 8240 50 ∗ 7500 100 330# 200# 39 8 −6815.7 2.2 −8860.3 1.5 −11946 26 −11303 13 −14330 50 −13554 21 −16980 80 ∗ ∗ 520 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 210 Hg Tl Pb Bi Po At Rn Fr Ra Ac Th 80 81 82 83 84 85 86 87 88 89 90 4840# 3680 5185.2 4604.63 7658.4 7164 8741 7648 9470 8130 10530 360# 14 1.3 0.08 1.4 11 22 26 50 80 100 ∗ 8190# 8379 4466.3 4983.6 2895 4007 1707 3059 350 2090 200# 8 1.1 0.8 8 11 30 21 80 60 10840# 2726 −5130 −11446 −16414 −20760 −23641 ∗ ∗ ∗ ∗ 300# 14 9 22 15 60 26 ∗ 14560# 12732.0 17667.5 13627.8 16208 13604 17013 13840 17790 13990 300# 1.9 0.8 2.0 8 27 25 50 60 60 ∗ 11840 11169 12524.2 8965.4 10038 8509 10150 8170 10120 7780 150 5 0.8 2.1 10 23 30 50 80 60 ∗ ∗ 7140 11888 12145.24 13729 13194 15540 14740 17280 16150 150 5 0.12 8 11 30 30 80 60 Tl Pb Bi Po At Rn Fr Ra Ac Th 81 82 83 84 85 86 87 88 89 90 4900# 3834.5 5138 4550.8 7747 7229 8880 7700 9660 8210 200# 2.8 5 0.5 8 11 30 30 90 80 8250# 8534 4419 4929.7 2983.0 4073 1849 3110 550 2170 360# 12 6 0.9 2.5 10 23 30 70 90 5570# −1736 −7701 −13269 −18850 −22660 ∗ ∗ ∗ ∗ 200# 7 22 26 70 70 12980# 13857 16467 16536.8 15429.6 14835 15482 15320 16060 15770 280# 8 6 0.9 2.8 10 29 30 90 90 11880# 11122.1 14754 11301.6 10686.4 8600 10354 8370 10360 8010 360# 2.8 5 2.1 2.8 27 24 50 70 90 ∗ 8250# 10537 14962.4 12869 14360 13980 16131 15520 17840 300# 6 0.5 3 7 30 29 80 80 Tl Pb Bi Po At Rn Fr Ra Ac Th Pa 81 82 83 84 85 86 87 88 89 90 91 3650# 5127.3 4330 6008.2 5045 7975 7450 9099 8000 9890 ∗ 360# 2.5 6 0.5 7 7 30 29 100 80 ∗ 8760# 4914.8 5800 3478 4301 2071 3323 850 2400 −420 200# 2.8 5 7 4 27 24 70 70 110 6970# 1112 −4580 −10178 −15900 −20751 −25150 ∗ ∗ ∗ ∗ 300# 4 26 11 70 19 80 14170# 12410 17321.8 15133.2 18043 14023 16771 13866 17530 14010 18280 420# 12 1.9 0.8 7 8 27 25 70 60 80 11560# 10955 14361.2 12753.1 12609 9084 10260 8442 10290 8110 9980 360# 8 2.2 0.8 7 8 30 18 80 50 120 ∗ 6450# 11167 12891.4 15284 13353 14988 14384 16690 15880 18420 200# 8 1.3 7 3 27 23 70 50 90 213 Pb Bi Po At Rn Fr Ra Ac Th Pa 82 83 84 85 86 87 88 89 90 91 3708 5185 4355.3 6030 5110 8084 7522 9190 8040 10020 8 5 2.9 8 6 27 23 90 70 100 8820# 4972 5825 3499 4366 2179 3390 940 2450 −280 300# 5 3 5 9 8 30 50 100 70 2514 −1681 −7011 −12730 −17820 −23210 ∗ ∗ ∗ ∗ 10 9 21 50 70 70 13600# 15972 15916 16564 16660 15917 15226 16030 15620 16470 200# 5 6 5 6 10 29 60 100 100 10926 14362 13002.4 14238 11138 10912 8570 10560 8190 10480 14 5 2.8 5 10 11 30 50 90 80 7580# 9662 13721.3 13859 15901 14068 15602 15150 17300 16520 300# 13 2.8 5 6 11 22 60 70 90 214 Pb Bi Po At Rn Fr Ra Ac Th Pa 82 83 84 85 86 87 88 89 90 91 5068 4041 5887.8 4872 6693 5480 8328 7800 9480 8250 8 12 2.8 6 11 12 22 60 70 100 ∗ 5305 6528 4015 5029 2549 3639 1220 2730 −80 14 5 5 10 10 12 30 50 100 4138 −242 −4570 −9809 −15032 −20440 ∗ ∗ ∗ ∗ 9 14 9 23 19 80 12180# 17058 14358.2 17701 15012 18412 14349 17331 14140 18110 300# 11 1.9 4 12 9 27 25 70 80 10760# 14155 12253 13917 12191 12661 9122 10460 8370 10440 200# 11 6 4 9 11 23 30 70 110 ∗ 10520# 11667.9 14125 13759 16335 14502 16230 15520 17930 200# 2.8 7 9 9 11 30 30 100 212 S(p) Q(d,α ) Elt. 211 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(2β − ) Q(α ) 521 Q(β − n) Q(ε p) A Elt. Z 210 Hg Tl Pb Bi Po At Rn Fr Ra Ac Th 80 81 82 83 84 85 86 87 88 89 90 8160# 8639 9122.5 12064.4 14626.2 15623 16093 16820 17395 18110 ∗ 420# 12 0.9 1.9 1.3 27 14 50 22 80 ∗ ∗ 16210# 300# 12620.2 1.9 8782.56 0.13 7680 8 6706 9 5430 30 4469 19 3120 70 2249 29 ∗ ∗ 3792 5036.4 5407.45 5631.2 6158.9 6650 7152 7610 8053 211 Tl Pb Bi Po At Rn Fr Ra Ac Th 81 82 83 84 85 86 87 88 89 90 8580# 9019.6 9743 12209.2 14910 15970 16531 17160 17780 18740 200# 3.0 5 1.5 8 21 26 60 90 120 ∗ 16720# 12798 9396.0 7966.6 6968 5856 4810 3600 2530 200# 9 1.4 2.4 7 22 30 70 90 ∗ 3300 6750.3 7594.5 5982.4 5965.4 6660 7043 7620 7940 212 Tl Pb Bi Po At Rn Fr Ra Ac Th Pa 81 82 83 84 85 86 87 88 89 90 91 8550# 300# ∗ 8961.7 2.3 17010# 9468.2 1.9 13449 10558.98 0.17 10219.1 12792 11 8407 15204 9 7284.5 16330 30 6144 16795 19 5171 17650 90 3950 18090 30 2948 ∗ 1750 300# 12 0.9 7 2.9 27 14 70 24 90 ∗ 6470# 300# 3130# 300# 2822.0 2.2 6207.26 0.03 504 7 8954.12 0.11 −1709.8 2.9 7824 7 −5084 27 6385.0 2.6 −8468 12 6528.9 1.8 −10820 70 7031.6 1.7 −12282 22 7520 50 −14340 100 7952 10 ∗ 8430 50 ∗ 213 Pb Bi Po At Rn Fr Ra Ac Th Pa 82 83 84 85 86 87 88 89 90 91 8835 9515 10363.5 11075 13085 15535 16620 17190 17930 ∗ 8 7 2.9 5 9 22 30 90 100 ∗ 13730# 10740 9299 7844 6481 5465 4270 3300 2120 200# 4 7 6 8 21 60 80 100 2740# 5982 8536.1 9254 8243 6904.9 6861 7500 7840 8390 214 Pb Bi Po At Rn Fr Ra Ac Th Pa 82 83 84 85 86 87 88 89 90 91 8776.5 9226 10243.1 10901 11803 13563 15851 16990 17522 18270 2.0 11 0.9 8 10 27 14 70 25 110 ∗ 14130# 11500.5 9840 8528 6915 5818 4610 3675 2370 300# 2.3 4 9 11 10 30 20 100 2510# 300# 4288.7 5621 3 2180 7833.46 0.06 −150 8987 4 −2421 9208 9 −4420 8589 4 −7387 7273 3 −10611 7350 3 −13060 7826 7 ∗ 8270 50 ∗ 9610# 300# ∗ 5545 12 ∗ 20 1224.8 0.9 −13670# 200# 0.8 −2820 8 −8443 8 0.07 −6355 9 −5627.6 1.3 1.0 −8626 24 −1002 8 2.2 −10059 17 −521 9 30 −12140 60 2244 23 4 −13582 29 2101 25 50 ∗ 5270 60 17 ∗ 4900 60 450# 300# 297 12 −4541.1 0.5 −6497.2 1.6 −11145 7 −11115 21 −13900 17 −13270 60 −16450 50 −15780 120 ∗ 5780# 200# ∗ 1941.1 2.8 −12670# 300# −211 6 −9901 13 −3677 7 −4993.2 1.0 −7489 21 −4144.3 2.4 −9592 27 −91 7 −11360 70 525 22 −13070 80 3145 28 ∗ 3260 70 ∗ 6160 80 580# 200# −3771.0 2.8 −3977 5 −8532 8 −10121 9 −13481 23 −12690 26 −16020 60 −14910 80 ∗ 150 0.5 0.5 1.3 1.4 5 4 50 50 200# 6 2.6 5 5 1.8 4 50 50 50 3469 1349 −955 −3030 −6056 −9700 −11760 −13510 ∗ ∗ 8 7 6 9 21 50 70 90 2.6 12 9 10 13 24 19 80 ∗ ∗ −9330# 200# −7166.9 2.7 −4052 9 −3516.1 3.0 821 26 1275 13 4150 70 3970 30 7120 100 ∗ −10870# −6395 −5751 −2618 −2218 1728 2400 5020 5100 ∗ ∗ −8575 −5438 −4955 −1668 −1490 2690 3065 6040 770# 300# −3760 6 −3756.1 1.8 −6793.6 2.5 −7937 10 −12573 21 −12450 40 −15470 70 −14700 100 ∗ ∗ 300# 4 5 6 10 21 60 70 100 −3138 −2933 −6104 −5991 −10232 −11430 −14990 −14010 −17570 ∗ 8 5 8 6 26 14 70 60 100 8 6 10 10 11 24 26 90 −3022 −2618 −5962 −5753 −8841 −9387 −14130 −13760 −17020 ∗ 5 12 5 7 12 22 50 70 70 522 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Z 215 Pb Bi Po At Rn Fr Ra Ac Th Pa 82 83 84 85 86 87 88 89 90 91 3410# 5223 4141.7 5947 4920 6795 5638 8490 7860 9690 410# 19 2.7 8 12 11 12 30 30 120 ∗ 5459 6629 4074 5078 2651 3797 1378 2790 130 15 11 7 9 11 11 23 40 90 5650# 1330 −3074 −7267 −12095 −17550 ∗ ∗ ∗ ∗ 410# 17 8 22 28 90 ∗ 15544 15401 16109 16122 16727 16794 16365 15480 16460 17 5 7 9 9 11 30 60 110 Bi Po At Rn Fr Ra Ac Th Pa 83 84 85 86 87 88 89 90 91 3846 5747.2 4559 6647 5411 7314 5960 8694 8140 19 2.3 8 10 16 11 30 30 110 5890# 7154 4491 5778 3141 4316 1700 2996 420 410# 15 4 10 16 11 28 25 70 2895 −1507 −5865 −10049 −14820 ∗ ∗ ∗ ∗ 18 9 27 15 70 16766 13695 17438 14346 18009 14960 18733 14586 17800 Bi Po At Rn Fr Ra Ac Th Pa U 83 84 85 86 87 88 89 90 91 92 5120# 3954 5933 4668 6736 5475 7487 6160 8800 ∗ 200# 7 6 8 15 12 29 24 90 ∗ 7262 4677 5888 3230 4381 1873 3200 520 2390 13 5 5 10 16 15 30 50 110 4510# 13 −4311 −8557 −12750 −16810 ∗ ∗ ∗ ∗ 200# 11 14 21 50 90 Bi Po At Rn Fr Ra Ac Th Pa U 83 84 85 86 87 88 89 90 91 92 3560# 5614 4368 6512 5327 7308 5930 7913 6470 8850 410# 7 13 4 8 14 50 24 60 90 ∗ 7750# 5091 6467 3888 4953 2330 3621 840 2430 200# 13 5 6 13 50 18 30 60 6280# 1707 −2750 −7157 −11610 −15270 ∗ ∗ ∗ ∗ Po At Rn Fr Ra Ac Th Pa U 84 85 86 87 88 89 90 91 92 3630# 5773 4458 6512 5328 7350 5970 8220 6780 360# 12 3 8 14 70 50 60 60 7820# 5250 6557 3888 4954 2370 3660 1140 2750 510# 4 12 7 9 50 70 60 60 Po At Rn Fr Ra Ac Th Pa U 84 85 86 87 88 89 90 91 92 5410# 4120 6288.6 5207 7193 5890 7870 6220 8250# 510# 50 2.3 8 12 50 60 80 210# ∗ 5740# 7073 4637 5634 2932 4190 1380 2780# 360# 4 4 12 17 60 80 210# 217 218 219 220 S(p) Q(d,α ) Elt. 216 S(n) Q(4β − ) A Q(n,α ) 10990# 14060 12441.1 13978 12317 13842 10935 11067 8510 10640 510# 15 2.7 7 10 8 27 24 70 90 ∗ 8950# 12653.5 12509 14847 14586 16840 15200 16765 16240 11 11 4 8 17 12 28 26 70 13922 11879 13775 11699 13541 11705 12630 9010 10550 14 5 5 9 15 12 30 50 100 ∗ 10615 13134 12555 15205 14636 17319 15593 17290 8 6 8 15 10 28 24 90 15060# 14963 15647 15625 16194 16280 16884 16915 16850 15540 460# 16 5 8 10 11 15 30 60 120 13870# 11965 13730 11902 13498 11710 13470 10650 11220 8080 200# 13 5 6 11 12 16 30 50 120 ∗ 11728 11242 13775 13341 15854 15311 17762 16290 17630 7 12 4 8 12 15 23 60 90 360# 11 50 13 25 30 ∗ 13195 17026 13671 17514 14383 18260 14963 19075 14830 11 12 4 9 18 50 30 28 80 13720# 11574 13503 11337 13092 11197 13170 11227 12610 8920 550# 15 12 7 9 13 50 25 40 90 ∗ 9530# 12097 11404 13961 13466 16170 15487 18300 16640 410# 19 3 8 13 50 15 30 40 3410# −1170 −5640 −9900 −13820 ∗ ∗ ∗ ∗ 360# 50 50 50 60 14690# 15207 15146 15671 15790 16390 16480 17020 16850 410# 7 5 8 10 50 50 60 80 11790# 13477 11438 13227 11279 13140 11210 13080 10280 360# 4 4 10 16 50 60 60 90 ∗ 10170 12693.3 12007 14785 14240 16830 16040 18550 12 2.3 8 11 50 50 60 60 5190# 600 −4056 −8890 −12760# ∗ ∗ ∗ ∗ 360# 50 22 60 200# 12840# 16700 13226 16976 13925 17811 14540 18710 15070# 510# 50 12 4 10 19 60 60 200# 11510# 13320 11082 12688 10822 12728 10826 13020 10830# 410# 50 5 6 11 17 26 60 210# ∗ 11180# 10359 12734 12261 15083 14428 17320 16460# 200# 7 6 10 16 24 60 200# 300# 2.4 7 8 10 8 30 29 110 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Elt. Z 215 Pb Bi Po At Rn Fr Ra Ac Th Pa 82 83 84 85 86 87 88 89 90 91 8480# 9263 10030 10818 11613 12275 13967 16290 17330 17930 410# 16 4 8 9 10 22 60 80 110 ∗ ∗ 11934 10602 9093 7680 6346 5017 4010 2860 Bi Po At Rn Fr Ra Ac Th Pa 83 84 85 86 87 88 89 90 91 9068 9888.9 10506 11567 12205 12952 14450 16550 17830 16 2.3 5 12 17 13 30 21 100 ∗ 12612.8 11120 9852 8219 6967 5497 4374 3210 Bi Po At Rn Fr Ra Ac Th Pa U 83 84 85 86 87 88 89 90 91 92 8970# 9702 10492 11315 12146 12789 13448 14850 16950 ∗ 200# 7 8 9 9 11 25 30 100 ∗ 13160# 11831 10379 9008 7522 6189 4896 3520 2810 Bi Po At Rn Fr Ra Ac Th Pa U 83 84 85 86 87 88 89 90 91 92 8680# 9568.1 10301 11181 12062 12783 13420 14072 15270 ∗ 360# 2.0 12 7 15 14 60 18 70 ∗ ∗ 12353 11144.2 9776 8182 6710 5495 4030 2960 16 2.9 6 13 50 16 40 30 Po At Rn Fr Ra Ac Th Pa U 84 85 86 87 88 89 90 91 92 9240# 10141 10970 11839 12636 13280 13890 14690 15630 360# 6 5 10 12 50 50 80 100 ∗ 13000# 11648 10355 8842 7320 5990 4760 3580 200# 7 8 9 50 50 60 60 5900# 6324 6946.1 7448.5 8138 8830 9510 10080 9860 Po At Rn Fr Ra Ac Th Pa U 84 85 86 87 88 89 90 91 92 9040# 9890 10746.7 11719 12521 13230 13848 14430 15040# 360# 50 2.9 6 14 50 26 60 200# ∗ 13560# 12322.8 11194 9523 7885 6560 5050 3920# 360# 2.0 12 9 16 25 80 200# ∗ 6050 6404.67 6800.7 7592 8348 8953 9830 10300# 216 217 218 219 220 S(2n) Q(2β − ) Q(α ) A S(2p) 523 Q(β − n) Q(ε p) ∗ 5300# 7526.3 8178 8839 9540 8864 7744 7665 8240 200# 0.8 4 8 7 3 4 6 50 5020# 2904 628 −1573 −3702 −5693 −8393 −11860 ∗ ∗ 410# 16 8 10 11 22 28 90 ∗ ∗ −7648.0 −7344 −3988 −3591 −436 −319 3537 4150 2.5 13 8 8 12 23 28 90 2.0 12 7 15 13 28 16 70 5100# 6906.3 7950 8200 9175 9526 9235 8071 8097 300# 0.5 3 7 12 8 6 6 15 3617 1528 −722 −3035 −5140 −7013 −9680 ∗ ∗ 12 8 15 11 30 16 70 ∗ −9980# −6680 −6493 −3055 −2829 516 482 4500 410# 16 5 9 11 14 22 60 90 ∗ 6660 7201.3 7887.1 8469 9161 9832 9433 8489 8160 4 1.2 2.9 4 6 10 4 4 50 4430# 2242 81 −2229 −4392 −6329 −8360 −10480 ∗ ∗ 200# 8 8 9 14 22 50 90 ∗ ∗ −8767 −5414 −5232 −1657 −1561 1636 1660 5110 ∗ 6114.68 6874 7262.5 8014.0 8546 9380 9849 9815 8786 0.09 3 1.9 2.0 6 50 9 10 25 5240# 3141 1040 −1434 −3780 −5723 −7820 −9550 ∗ ∗ 360# 3 12 11 50 17 60 30 200# 15 0.3 1.8 3 50 50 50 50 3970# 1779 −563 −2950 −5080 −6950 −8740 ∗ ∗ 50 0.10 1.9 6 4 20 50 200# 4850# 2870 341 −2269 −4396 −6630 −8360# ∗ ∗ 8 8 8 8 9 23 30 100 −2390# −1953 −5232 −5007 −8282 −7854 −11967 −12772 −16630 ∗ 410# 15 5 11 12 12 24 27 80 410# 15 8 16 12 27 15 70 −1657 −5032 −4645 −8134 −7626 −10792 −10880 −15640 ∗ 11 7 8 10 16 23 40 90 12 5 7 11 19 23 60 90 −1030# −4428 −3931 −7392 −7048 −10307 −9669 −13660 ∗ ∗ 200# 7 9 15 11 28 18 70 ∗ ∗ −8010# −7972 −4625 −4296 −760 −802 2673 2420 200# 7 7 12 50 15 28 40 −640# −4109 −3631 −7168 −6900 −10127 −9440 −12770 −12100 ∗ 360# 5 12 7 10 17 50 50 90 360# 8 9 50 50 70 80 ∗ −10230# −6816.5 −6769 −3112 −2780 530 390 3550 360# 2.5 14 8 50 50 70 60 −3370# −2892 −6300 −6104 −9520 −8880 −12270 −11470 ∗ 360# 4 5 13 50 50 60 60 360# 50 9 15 24 60 200# ∗ ∗ −9480# −6203 −5847 −2156 −2014 1520 1270# 360# 5 10 16 24 80 210# −3000# −2550 −6076 −5983 −9370 −8790 −11920 −10910 ∗ 360# 50 7 9 50 50 60 80 524 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 221 At Rn Fr Ra Ac Th Pa U 85 86 87 88 89 90 91 92 5610# 4212 6276 5380 7300 5802 8070 6510# 200# 6 6 10 50 24 80 230# 5940# 7170 4624 5808 3040 4103 1580 3080# 410# 50 5 6 50 17 60 120# 2290# −2466 −7100 −11630# ∗ ∗ ∗ ∗ 200# 11 50 100# 14720# 14786 15158 15056 15840 16080 16620 16780# 410# 7 5 8 50 50 70 120# 13320# 11238 12925 10769 12740 10960 12870 10790# 200# 13 5 6 50 50 50 110# 9130# 11760 10826 13393 13110 15933 15180 17860# 410# 6 12 5 50 14 70 100# 222 At Rn Fr Ra Ac Th Pa U 85 86 87 88 89 90 91 92 4090# 6170 5000 6714 5970 7806 6340# 8360# 360# 6 22 6 50 15 90# 140# ∗ 7730# 5412 6246 3631 4610 2110# 3370# 200# 22 6 7 50 70# 110# 4180# −829 −5770# −9980# ∗ ∗ ∗ ∗ 300# 12 80# 100# 16050# 12730 16447 13549 17059 14162 18160# 14630# 470# 50 21 6 10 19 80# 120# 12860# 10841 12383 10567 12091 10500 12510# 10640# 470# 4 21 8 10 50 90# 120# ∗ 9220# 11599 11137 13650 13455 16190# 15470# 360# 21 5 9 15 90# 110# At Rn Fr Ra Ac Th Pa U 85 86 87 88 89 90 91 92 5410# 4150# 6037 5158 6866 5889 7870# 6530# 500# 300# 21 5 9 15 100# 120# ∗ 7790# 5278.7 6404 3784 4525 2170 3570# 420# 2.3 21 8 10 70 100# 5640# 910# −3940 −8600 ∗ ∗ ∗ ∗ 400# 300# 70 70 ∗ 14200# 14622 14667 15573 15570 16090 16170 360# 6 5 8 50 70 90 12860# 10810# 12634.5 10616 12418 10498 12520 10330 540# 300# 2.2 4 12 17 70 90 ∗ 10480# 9680 12267.6 11990 14759 14220 16820 470# 50 2.3 8 13 70 70 Rn Fr Ra Ac Th Pa U 86 87 88 89 90 91 92 5930# 4800 6478.8 5663 7461 6520 8200 420# 50 2.3 8 14 70 80 8310# 5930# 6845.6 4289 5119 2804 3900 500# 300# 2.2 5 13 18 80 2440# −2210 −6886 ∗ ∗ ∗ ∗ 300# 50 25 12350# 15990 13189 16624 14086 17378 14310# 420# 50 21 6 12 20 80# 10490# 12050 10413 12135 10340 11796 10200 360# 50 5 6 50 18 60 ∗ 10490# 10001 12603 12679 14990 14422 200# 6 6 12 50 27 Rn Fr Ra Ac Th Pa U Np 86 87 88 89 90 91 92 93 4020# 5910 4904.5 6668 5757 7600 6408 ∗ 420# 60 2.9 6 12 70 28 ∗ 5920# 6950 4478 5213 2940 3782 1410 300# 50 5 6 70 19 80 4180# −530 −5383 −9950 ∗ ∗ ∗ ∗ 300# 80 12 70 13740# 14230# 14321.0 15114 15195 15670 15770 16460 500# 300# 2.9 4 9 70 70 100 10560# 12300 10509 12181 10553 12000 10130# 12160# 420# 30 21 6 7 70 70# 120# ∗ 8660# 11266.9 10935 13635 13370 15821 15120# 300# 2.9 22 7 70 17 100# Rn Fr Ra Ac Th Pa U Np 86 87 88 89 90 91 92 93 5790# 4510 6396.2 5399 7184 6380 8120 6920# 500# 100 2.9 5 7 70 17 110# ∗ 6410# 7430 4973 5730 3566 4300 1930# 310# 30 4 6 12 70 90# 5580# 1340 −3660 −8430# ∗ ∗ ∗ ∗ 400# 100 13 90# ∗ 15640# 12720 16194 13673 16748 14169 17740# 310# 50 3 6 16 20 90# 10170# 11940# 10149.3 11940 10235 11511 9870 11760# 570# 310# 2.3 3 8 15 70 110# ∗ 9560# 9020# 11573 11609 13853 13589 16060# 410# 300# 3 5 13 16 110# Rn Fr Ra Ac Th Pa U Np 86 87 88 89 90 91 92 93 3860# 5790 4561.43 6531 5462 7273 6378 8250# 580# 140 0.27 3 5 14 21 110# ∗ 6410# 7480 5107.1 5793 3654 4300 2060 410# 100 2.3 3 9 20 70 7180# 2820 −1843 −6710 ∗ ∗ ∗ ∗ 420# 100 17 70 ∗ 13870# 14080 14567.7 14879 15232 15390 15900 310# 30 2.9 4 9 70 70 ∗ 12080# 10390 11887.8 10436 11700 10016 11710 310# 50 2.1 5 13 23 80 ∗ ∗ 10390# 9840 12625.4 12243 14672 14340 300# 50 2.3 8 20 70 224 225 226 227 S(p) Q(d,α ) Elt. 223 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(2β − ) Z 221 At Rn Fr Ra Ac Th Pa U 85 86 87 88 89 90 91 92 9730# 10501 11483 12573 13190 13680 14280 14760# 200# 6 8 9 70 50 70 120# ∗ 12910# 11697 10445 8670 7034 5770 4460# 360# 5 5 50 12 70 110# 5570# 6147 6457.8 6880.4 7780 8626 9250 9950# 280# 3 1.4 2.0 50 4 50 100# 3540# 1509 −1240 −3974 −5860 −7650# ∗ ∗ 200# 7 50 10 70 100# ∗ −8280# −8360 −4938 −4250 −624 −660 2630# At Rn Fr Ra Ac Th Pa U 85 86 87 88 89 90 91 92 9700# 10382.5 11276 12094 13273 13609 14400# 14870# 300# 1.9 22 10 16 25 90# 220# ∗ 13670# 12580 10870 9439 7648 6210# 4950# 360# 60 5 6 15 70# 100# 5040# 5590.3 5826 6679 7137.4 8127 8850# 9500# 200# 0.3 24 4 2.0 5 50# 100# 4450# 2052 −272 −2882 −5490# −7100# ∗ ∗ 300# 5 22 13 70# 100# ∗ ∗ −7750# −7440 −3946 −3050 300# 70# At Rn Fr Ra Ac Th Pa U 85 86 87 88 89 90 91 92 9490# 10320# 11037 11872 12840 13695 14200 14900# 450# 300# 5 5 50 13 90 120# ∗ ∗ 13010# 11816 10030 8156 6780 5680 200# 6 8 10 90 70 ∗ 5070# 5562 5978.99 6783.2 7567 8330 8940 200# 3 0.21 1.0 4 50 50 5080# 3060# 557 −2151 −4490 −6450 ∗ ∗ 400# 300# 7 9 70 70 Rn Fr Ra Ac Th Pa U 86 87 88 89 90 91 92 10080# 10830 11637 12529 13349 14390# 14730# 300# 50 5 6 16 70# 100# ∗ 13720# 12124.3 10693 8903 7329 6067 300# 1.9 22 12 16 28 4550# 4880 5788.85 6326.9 7298 7694 8620 200# 70 0.15 0.7 6 4 12 3610# 1420 −1169 −3636 −5717 ∗ ∗ Rn Fr Ra Ac Th Pa U Np 86 87 88 89 90 91 92 93 9950# 10710 11383 12331 13218 14120 14600 ∗ 420# 30 3 8 10 100 70 ∗ 14230# 12880# 11324 9502 8060 6586 5310 400# 300# 4 6 70 15 100 ∗ 4580# 5097 5935.1 6921.4 7390 8014 8790 200# 5 1.4 2.1 50 7 50 Rn Fr Ra Ac Th Pa U Np 86 87 88 89 90 91 92 93 9810# 10430 11300.7 12067 12942 13980 14527 ∗ 500# 110 1.9 5 12 19 28 ∗ ∗ 13350# 11920 10208 8779 7245 5710# 300# 50 5 12 17 90# ∗ 4150# 4870.62 5536 6450.9 6987 7701 8200 Rn Fr Ra Ac Th Pa U Np 86 87 88 89 90 91 92 93 9650# 10300 10957.7 11930 12647 13650 14498 15170 520# 100 2.9 4 6 70 20 100 ∗ ∗ 13890# 12540 10766 9384 7866 6360 300# 30 3 9 18 100 ∗ 3770# 4460# 5042.19 6146.60 6580.4 7211 7816 224 225 226 227 Q(β − n) Q(ε p) Elt. 223 S(2p) Q(α ) A 222 S(2n) 525 360# 50 5 50 13 50 110# −1870# −5082 −5066 −8859 −8220 −11510 −10720# ∗ 200# 7 10 15 60 60 210# 200# 7 7 13 90# 100# −1740# −4976 −4686 −8270 −8388 −11250 −10550# ∗ 300# 5 22 50 11 50 130# ∗ ∗ −9710# −6427.9 −5812 −2225 −1590 1350 300# 2.4 22 10 70 70 −980# −4120# −4009 −7458 −7448 −10800# −10050# ∗ 400# 300# 5 6 14 70# 120# 300# 50 11 16 28 ∗ −9100# −8760# −5438 −4527 −1245 −961 400# 300# 4 11 17 27 −4020# −3650 −7071 −7222 −10400 −10040 ∗ 300# 50 7 10 70 70 4500# 2180 −316 −2700 −5067 −7250 ∗ ∗ 300# 30 6 70 13 100 ∗ ∗ −7740# −7310 −3806 −3180 92 430 300# 50 5 70 16 70 −3240# −3080 −6312 −6429 −9631 −9440 ∗ ∗ 300# 30 5 12 16 80 310# 0.25 21 2.2 10 4 50 5110# 3060 472 −1723 −4132 −6710# ∗ ∗ 400# 100 5 12 14 90# ∗ ∗ −10110# −6790 −6086 −2894 −2270 1110# 300# 30 5 12 14 110# −3110# −2690 −6040 −6071 −9210 −9415 −12330 ∗ 400# 100 5 6 70 16 70 410# 300# 0.14 0.10 2.1 14 14 5800# 3800 1372.8 −981 −3216 −5730 ∗ ∗ 420# 100 2.4 7 17 70 ∗ ∗ −8880# −8810 −5151.9 −4767 −1464 −760 400# 100 2.4 8 17 70 −2460# −2090 −5203 −5417 −8298 −8568 −11790# ∗ 440# 100 3 5 12 15 90# 526 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 228 Rn Fr Ra Ac Th Pa U Np Pu 86 87 88 89 90 91 92 93 94 5670# 4450# 6308.5 5026.3 7105.3 5979 7869 6930# ∗ 590# 220# 2.4 2.5 2.3 8 22 210# ∗ 6990# 8000 5572.0 6367.7 4171 4896 2610# 3760 470# 100 2.4 2.1 5 17 200# 80 8610# 4360# −283 −4810# −9320 ∗ ∗ ∗ ∗ 410# 200# 15 200# 30 ∗ 15220# 12280 15937.7 13173 16438 13902 17080# 14060# 450# 100 2.4 3 6 19 200# 90# ∗ 11650# 9990 11766.0 9998 11478 9750 11190# 9360 360# 30 3.0 5 7 70 200# 80 ∗ ∗ 8100# 10730 10424.6 12932 12561 15010# 14360 300# 30 2.8 6 16 210# 30 Fr Ra Ac Th Pa U Np Pu 87 88 89 90 91 92 93 94 5540# 4450 6210 5257.0 7098 6085 7990# 6760 200# 19 30 2.7 5 16 210# 60 6860# 8010# 5480 6598.4 4163.2 5003 2730 3590# 410# 200# 30 2.8 2.5 7 90 200# 5920 1352 −3030 −7810 ∗ ∗ ∗ ∗ 40 20 90 50 13550# 13620 14290 14446.4 14802.6 15090 15470 15550 430# 100 30 2.7 2.0 9 90 90 11910# 10050 11950 10140 11565 10041 11310 9530# 400# 100 30 4 5 13 90 100# ∗ 9440# 9030 11563.8 11234 13660 13390 15720 400# 110 2.7 4 7 90 50 Fr Ra Ac Th Pa U Np Pu 87 88 89 90 91 92 93 94 4290# 6116 5020 6793.9 5795 7667 6610 8540 450# 22 300 2.3 4 7 100 50 ∗ 8590 6040 7180 4701 5572 3260 4130 40 300 30 4 5 50 90 7420# 2903 −1430 −6070 ∗ ∗ ∗ ∗ 450# 13 300 15 14930# 11950# 15580 12678.8 16113 13401 16720 13940# 610# 200# 300 1.9 3 6 50 200# 11480# 9730 11490 9877.1 11232 9647 11080 9240 620# 100 300 1.7 3 9 50 70 ∗ 7180# 9800 9331.4 11970 11455 14050 13558 420# 320 1.5 3 5 50 23 Fr Ra Ac Th Pa U Np Pu Am 87 88 89 90 91 92 93 94 95 5340# 4190# 5960 5118.02 6820 5879 7680 6720 ∗ 650# 300# 320 0.20 3 5 70 30 ∗ 8490# 5890 7280 4727.2 5656 3280 4240 1780# 540# 100 300 1.5 4 50 60 300# 8900# 4590# 290 −4468 −9010# ∗ ∗ ∗ ∗ 470# 300# 110 26 300# ∗ 13290# 14070 13770 14550.0 14620.2 15130 15220 15750# 300# 100 30 2.6 2.6 50 90 300# 11810# 9980# 11840 9785.4 11517.6 9747 11260 9450# 11220# 620# 360# 100 1.9 2.0 5 50 200# 300# ∗ 8660# 8280# 10521.9 10176.1 12681.6 12350 14710 14380# 510# 220# 1.8 2.3 2.8 50 30 360# Fr Ra Ac Th Pa U Np Pu Am 87 88 89 90 91 92 93 94 95 4040# 5820# 4840 6440.3 5549 7268.0 6340# 7990 7110# 790# 410# 140 1.1 8 2.8 110# 30 420# ∗ 8970# 6540# 7760 5158 6104.0 3740# 4550 2180# 550# 310# 100 8 2.0 100# 50 300# 10420# 6040# 1790# −2917 −7450# ∗ ∗ ∗ ∗ 640# 280# 140# 18 300# ∗ 11760# 15340 12350 15795 13147 16460# 13840 17180# 530# 100 300 8 3 100# 50 300# ∗ 9700# 11450 9560 11225 9576.8 11010# 9450 10860# 280# 100 30 8 2.5 100# 90 300# ∗ ∗ 8980 8532 10840 10670.6 13110# 12801 15270# 110 19 30 2.7 100# 19 310# Ra Ac Th Pa U Np Pu Am Cm 88 89 90 91 92 93 94 95 96 3950# 5720# 4786.39 6529 5762.1 7480# 6390 8300# ∗ 550# 310# 0.09 8 2.6 110# 50 320# 8880# 6440# 7700 5247.2 6317 3950 4600# 2480# 3390# 790# 410# 100 1.4 8 50 110# 100# 310# 7850# 3550# −1320 −5680# −10370 ∗ ∗ ∗ ∗ 470# 300# 50 100# 70 13150# 13810# 13530 14383.6 14205.0 14850 15140 15600# 15570# 660# 420# 100 1.4 2.5 50 70 110# 310# 10030# 11840# 9790 11490.2 9610 11200 9680 11100# ∗ ∗ 7550# 9862 9330 11702.4 11420 14080 13580# 16010 540# 12 300 2.1 50 50 110# 70 230 231 232 233 S(p) Q(d,α ) Elt. 229 S(n) Q(4β − ) A 650# 300# 300 1.4 4 50 70 100# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z 228 Rn Fr Ra Ac Th Pa U Np Pu 86 87 88 89 90 91 92 93 94 9530# 10230# 10869.9 11557 12568 13252 14247 15180# ∗ 570# 220# 2.3 3 5 12 20 220# ∗ ∗ 14410# 13060 11474.9 9964 8550 6910# 5820 Fr Ra Ac Th Pa U Np Pu 87 88 89 90 91 92 93 94 9980 10759 11240 12362.3 13076 13954 14930 ∗ 110 19 30 2.9 8 18 110 Fr Ra Ac Th Pa U Np Pu 87 88 89 90 91 92 93 94 9830# 10567 11230 12050.8 12892 13753 14610# 15300 Fr Ra Ac Th Pa U Np Pu Am 87 88 89 90 91 92 93 94 95 Fr Ra Ac Th Pa U Np Pu Am Ra Ac Th Pa U Np Pu Am Cm 229 230 231 232 233 S(2n) S(2p) Q(α ) Q(2β − ) 400# 100 1.9 5 16 200# 30 ∗ ∗ 4080# 4810 5520.08 6264.5 6803 7410# 7950 300# 50 0.22 1.5 10 200# 20 6440# 4390# 2169.6 −28 −2453 −4780# −6860 ∗ ∗ ∗ 15000# 13480 12170.4 10530.9 9174 7630 6200 420# 110 2.7 1.8 6 90 50 ∗ 3650# 4510 5167.6 5835 6475 7010 7600 300# 40 1.0 4 3 50 50 490# 12 300 1.2 5 16 200# 40 ∗ 15440# 14050# 12655.8 11299 9735 8270 6869 410# 360# 1.8 3 5 50 21 ∗ 3320# 4010 4770.0 5439.4 5992.7 6780 7180 9630# 10310# 10980 11911.9 12614.9 13546 14300 15260 ∗ 470# 300# 110 2.3 1.6 7 100 60 ∗ ∗ 14480 13323 11910 10357 8850 7503 5920# 87 88 89 90 91 92 93 94 95 9380# 10010# 10800 11558.3 12369 13147 14020# 14711 ∗ 780# 280# 320 1.1 8 5 110# 23 88 89 90 91 92 93 94 95 96 9770# 10560# 11226.7 12078.3 13030 13820 14380 15410# ∗ 560# 310# 1.1 1.9 3 70 60 320# 527 Q(β − n) Q(ε p) 410# 200# 2.6 5 15 200# 40 ∗ ∗ −11330# −8050 −7695.8 −4216 −3870 −420# −220 420# 100 1.9 5 15 200# 40 −2340# −1970# −4980.5 −4981.5 −8131 −8169 −11410 ∗ ∗ 420# 200# 2.4 2.6 8 17 70 5060 2976 860 −1624 −3880 −6190 ∗ ∗ 50 19 30 6 90 50 ∗ −10110# −9820# −6644.2 −6287.0 −2851 −2430 890 410# 200# 2.7 2.8 6 90 50 −1200 −4405 −4090 −7409 −7398 −10560# −10380 ∗ 40 19 30 5 15 200# 90 400# 320 1.5 0.7 0.7 50 8 5790# 3654 1630 −751 −3060 −5319 ∗ ∗ 540# 12 300 5 50 16 ∗ ∗ −9300 −8988 −5870 −5261 −1950 −1566 300 19 30 5 50 16 −1040# −4310 −3850 −7105.3 −7107 −10240 −10230 ∗ 450# 40 300 2.2 7 90 70 110 19 30 3 50 27 310# ∗ 2990# 3840 4213.4 5149.9 5576.3 6370 6839 7450# 300# 140 1.6 0.8 1.7 50 20 310# 6410# 4580# 2490 9.9 −2200 −4478 −6810# ∗ ∗ 480# 300# 100 2.5 50 27 300# ∗ ∗ −10970# −7990 −7670 −4345.6 −3840 −618 −90# 460# 12 300 2.5 50 27 300# −260# −3480# −3020 −6428.5 −6260 −9500 −9380 ∗ ∗ 470# 420# 100 2.8 5 50 50 ∗ ∗ 15030# 13647 12440 10831.2 9390# 7827 6420# 460# 12 300 1.2 100# 19 300# ∗ 2840# 3440# 4081.6 4627 5413.63 6010# 6716 7270# 300# 220# 1.4 8 0.09 100# 10 360# 7210# 5200# 3200 837.6 −1410# −3755 −6040# ∗ ∗ 650# 280# 100 2.2 100# 18 310# ∗ ∗ −10470# −10240# −7260 −6495.5 −3350# −2731 480# 480# 300# 100 1.2 100# 18 300# −110# −3340# −2740 −6048.7 −5931 −9090 −9000# −12150# ∗ 710# 300# 100 1.7 8 50 100# 300# ∗ 15410# 14240# 13010 11475.3 10050 8330 7030# 5570 550# 300# 100 2.1 50 50 110# 80 ∗ 3260# 3746 4310 4908.5 5630 6420 6970# 7470 300# 19 30 1.2 50 50 50# 50 6030# 4010# 1813.3 −460 −3130 −5220# −7240 ∗ ∗ 470# 300# 2.2 50 50 110# 90 ∗ −12150# −9200# −8950 −5817.3 −5290 −1850 −1480# 1640 710# 280# 100 2.2 50 50 140# 70 −2450# −2020# −5286 −5192.0 −8510# −8490 −11420# ∗ ∗ 480# 300# 8 2.1 100# 50 300# 528 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z S(n) 234 Ra Ac Th Pa U Np Pu Am Cm 88 89 90 91 92 93 94 95 96 5610# 4470# 6190 5220 6844.6 6060 7770 6710# 8640 235 Ac Th Pa U Np Pu Am Cm Bk 89 90 91 92 93 94 95 96 97 236 Ac Th Pa U Np Pu Am Cm Bk S(p) Q(4β − ) ∗ 6950# 8170# 5681 6632.4 4252 4890 2810# 3740# 620# 300# 5 1.2 9 50 210# 100# 5450# 540# 4430 50 6080 50 5297.49 0.23 6983 8 6237 22 7940# 240# 6890# 200# ∗ 6800# 8140# 5570 6710 4390.9 5062 2980# 3910# 1310# 610# 400# 50 4 0.9 22 120# 290# 400# 6680# 2070 −2330# −6990# −11660# ∗ ∗ ∗ ∗ 360# 50 130# 200# 400# 89 90 91 92 93 94 95 96 97 4290# 5870# 5060 6545.45 5740 7352 6550# 8090# 7370# 610# 200# 210 0.26 50 21 160# 290# 570# ∗ 8560# 6200 7170 4830 5430.9 3290# 4060# 1800# 410# 210 50 50 1.8 100# 230# 450# 8130# 3550# −840# −5440# −10020# ∗ ∗ ∗ ∗ 237 Th Pa U Np Pu Am Cm Bk Cf 90 91 92 93 94 95 96 97 98 4320# 5780 5125.8 6580 5880.7 7680# 6690# 8380# ∗ 410# 220 0.5 50 2.1 120# 290# 460# 8590# 6100# 7240 4862.02 5570 3620# 4200# 2080# 2870# 620# 5110# 220# 1070# 200 −3890# 0.23 −8230# 50 −12730# 60# ∗ 230# ∗ 300# ∗ 640# ∗ 238 Th Pa U Np Pu Am Cm Bk Cf 90 91 92 93 94 95 96 97 98 5650# 4940 6154.2 5488.32 6999.9 6220# 7950# 6880# 8690# 460# 120 1.3 0.20 1.3 80# 210# 370# 640# ∗ 6720# 7620 5224.6 5997.5 3960 4460# 2280# 3180# 360# 100 0.5 0.4 50 70# 350# 460# 239 Pa U Np Pu Am Cm Bk Cf 91 92 93 94 95 96 97 98 5500# 4806.38 6215.2 5646.2 7100 6280# 8070# 7130# 210# 0.17 1.1 0.3 50 110# 370# 450# 6580# 7480 5285.5 6155.4 4061.7 4520# 2400# 3430# 340# 60 1.5 0.4 1.7 110# 240# 360# 680# 500# 3 5 2.1 50 50 230# 70 Q(d,α ) Q(p,α ) Q(n,α ) 810# 490# 100 5 8 8 100# 210# 300# 9770# 11570# 9560 11388 9585.0 11013 9590 11110# 9150# 680# 500# 100 5 1.5 9 50 210# 300# ∗ 8420# 7870# 10070 9975.7 12177 12189 14560# 14080 620# 300# 100 0.7 8 7 210# 30 13670# 13470# 14310 14141.2 14835.5 14940 15320# 15450# 16120# 590# 300# 50 1.2 2.2 50 130# 230# 410# 11940# 9970 11750 9837 11298.0 9690# 11160# 9380# ∗ 450# 110 50 8 1.8 100# 120# 360# 7010# 9250# 8830 11118.5 10743 13219 12950# 15190# 14950# 730# 280# 110 0.9 8 21 160# 200# 500# 500# 200# 220# 200# 400# 14990# 12060# 15440 12816 15940 13657 16540# 14070# 17390# 700# 450# 200 4 50 8 100# 290# 400# 11600# 9820# 11480 9820.3 11320 9820 11000# 9580# 10970# 680# 360# 200 1.2 50 50 110# 230# 410# ∗ 7330# 9500# 9359.5 11540 11629.2 13880# 13490# 15880# 510# 360# 0.9 50 2.6 110# 210# 410# 360# 120# 210# 220# 500# 13190# 14100 13770 14663.6 14759.4 15100# 15330# 15900# 15830# 510# 110 50 0.3 1.6 60# 240# 300# 640# 9960# 11890 9915 11590.7 10001 11090# 9610# 11240# ∗ 540# 100 5 0.4 8 60# 290# 230# 8620# 8190# 10424 10178 12593.1 12260# 14570# 14210# 16740# 610# 410# 3 4 1.3 60# 210# 310# 500# 6460# 280# 11830# 2350 80 15030# −2090 40 12670 −6830# 290# 15720.8 −11040# 400# 13500 ∗ 16230 ∗ 13920# ∗ 17110# ∗ 14510# 570# 210# 200 0.3 50 50 110# 350# 570# 9770# 11380 9840 11399.9 9984.1 11100 9600# 11240# 9360# 460# 80 50 0.4 0.9 50 130# 350# 570# ∗ 8690# 360# 8700 50 10770 50 10890.69 0.28 13020 50 12860 40 15270# 310# 14940# 450# 410# 100 1.1 0.29 2.1 120# 310# 310# 11750# 10090 11730.1 10070 11353.3 9870# 11260# 9610# 280# 200 1.0 50 2.3 140# 310# 450# 7480# 9770# 9610 11789.95 11660 13940# 13750# 15900# 9080# 490# 11580# 5150# 400# 15170# 265 8 12180 −4190# 210# 15604 −8577 18 12910 ∗ 16057 ∗ 13700# ∗ 16880# ∗ 14040# 3950# −620# −4970# −9560# ∗ ∗ ∗ ∗ 200# 100# 230# 210# 13850# 13640 14631.3 14427.41 15009.5 15330# 15720# 15760# 540# 200# 200 0.25 50 100# 250# 290# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(2β − ) Z 234 Ra Ac Th Pa U Np Pu Am Cm 88 89 90 91 92 93 94 95 96 9560# 10190# 10977 11749 12606.7 13550# 14159 15010# ∗ 560# 410# 3 9 1.6 100# 19 360# ∗ 15840# 14610# 13390 11879.6 10569 8839 7410# 6220 760# 280# 100 0.9 11 7 230# 26 ∗ 3080# 3672 4110 4857.7 5357 6310 6870# 7365 200# 13 300 0.7 9 5 200# 10 6620# 4760# 2468 385 −2203 −4580# −6374 ∗ ∗ 490# 400# 3 9 7 210# 19 ∗ ∗ −11440# −8450# −7875.6 −4823 −3859 −710# −620 Ac Th Pa U Np Pu Am Cm Bk 89 90 91 92 93 94 95 96 97 9920# 10620 11300 12142.1 13050 14010 14650# 15530# ∗ 470# 50 50 2.1 50 50 160# 210# ∗ 15090# 13750# 12390.7 11023.4 9314 7870# 6720# 5050# 470# 300# 0.9 1.5 21 130# 210# 410# 2970# 3430# 3990 4678.3 5194.0 5951 6610# 7200# 7840# 300# 300# 110 0.7 1.5 20 110# 200# 500# 5390# 3330 1290 −1263 −3620# −5730# −8040# ∗ ∗ 360# 50 50 21 120# 200# 420# ∗ −10260# −10060# −6983 −6585 −3252 −2580# 270# 880# Ac Th Pa U Np Pu Am Cm Bk 89 90 91 92 93 94 95 96 97 9740# 10300# 11140 11842.9 12720 13590 14490# 14980# ∗ 640# 200# 200 0.3 50 7 230# 200# ∗ 15360# 14340# 12746 11540 9821.8 8350# 7040# 5710# 530# 450# 3 50 1.6 100# 200# 450# 2720# 3380# 3770 4573.1 5010 5867.07 6400# 7100# 7580# 400# 200# 220 0.9 50 0.08 140# 200# 500# 6160# 4010# 1970 −456.4 −2800# −4990# −7220# ∗ ∗ 540# 200# 210 1.7 110# 200# 410# Th Pa U Np Pu Am Cm Bk Cf 90 91 92 93 94 95 96 97 98 10200# 10830 11671.2 12314.0 13233 14230# 14780# 15750# ∗ 360# 110 0.5 0.9 21 130# 290# 460# ∗ 14660# 13440 12040 10405.1 9050# 7490# 6140# 4670# 370# 50 50 1.3 60# 210# 260# 540# 3010# 3720# 4233.7 4958.3 5748.4 6200# 6800# 7500# 8100# 300# 310# 1.0 1.2 2.3 30# 200# 200# 510# 4810# 2770 298.6 −1700# −4180# −6530# −8540# ∗ ∗ Th Pa U Np Pu Am Cm Bk Cf 90 91 92 93 94 95 96 97 98 9970# 10720 11280.0 12070 12880.6 13900# 14640# 15260# ∗ 340# 210 1.2 50 1.6 110# 200# 490# ∗ 15320# 13720# 12470 10859.5 9530 8080 6470# 5270# 500# 200# 200 0.4 70 40 310# 450# 2970# 3240# 4269.7 4690 5593.20 6040 6620 7330# 8060# 400# 410# 2.9 4 0.19 50 40 200# 400# Pa U Np Pu Am Cm Bk Cf 91 92 93 94 95 96 97 98 10450# 10960.6 11703.5 12646.1 13320# 14230# 14950# 15820# 220# 1.3 1.0 1.3 60# 230# 320# 550# ∗ 14210# 12910 11379.9 10059.2 8480# 6860# 5710# 360# 100 0.5 1.7 100# 240# 290# 3190# 3890 4560 5244.51 5922.4 6580# 7200# 7810# 300# 50 50 0.21 1.4 100# 200# 60# 237 238 239 Q(β − n) Q(ε p) Elt. 236 S(2p) Q(α ) A 235 S(2n) 529 470# 300# 0.9 8 7 210# 50 −2340# −1700# −4947 −4650 −7870 −8170 −10900# −10830# ∗ 570# 400# 3 5 50 50 100# 220# 490# 400# 3 5 21 120# 200# 450# −960# −4160 −3890 −7107 −7376 −10420# −10130# ∗ ∗ 360# 50 50 8 7 210# 120# ∗ ∗ −9670# −9100 −6240 −5306.7 −2150# −1580# 1450# 410# 50 70 1.6 100# 200# 420# −820# −3950# −3650 −6669.7 −6880 −9830# −9800# −12890# ∗ 500# 200# 200 0.9 50 120# 230# 450# 360# 100 1.4 60# 210# 230# 540# ∗ −11160# −8350# −7760 −4642.0 −4100# −920# −370# 2640# 510# 200# 200 1.3 80# 210# 250# 540# −3220# −2880 −6060 −6100.8 −9160# −9390# −12200# ∗ ∗ 410# 100 50 1.7 100# 210# 450# 5320# 3310 1144.2 −970 −3230 −5870# −7810# ∗ ∗ 280# 60 1.2 50 40 290# 400# ∗ ∗ −10180# −7470 −6516.1 −3740 −2990 430# 640# 360# 100 0.6 50 40 290# 450# −3090# −2690 −5635.6 −5708.4 −8480# −8930# −11770# −11600# ∗ 300# 60 1.2 1.3 60# 210# 230# 580# 4030# 1984.0 −79.6 −2600# −4900# −6950# ∗ ∗ 200# 1.2 1.9 100# 230# 230# ∗ −9340# −8750 −6008.0 −5353.3 −2260# −1430# 1460# 280# 60 1.2 1.7 100# 240# 210# −2040# −4953.7 −4923.7 −7900 −8080 −11170# −10990# ∗ 200# 1.2 1.0 50 40 310# 460# 530 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) S(p) Q(4β − ) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z 240 Pa U Np Pu Am Cm Bk Cf Es 91 92 93 94 95 96 97 98 99 4610# 5930 5069 6534.20 5952 7540# 6690# 8180# ∗ 360# 5 15 0.23 14 100# 280# 290# ∗ 7910# 5548 6474.4 4367 4955.5 2820# 3540# 1240# 200# 15 1.0 14 2.4 180# 310# 450# 5290# 990 −3350# −7910# −12690# ∗ ∗ ∗ ∗ 300# 5 150# 200# 400# 14890# 12660 15717 13381.53 16058 14010 16980# 14460# 17710# 410# 60 15 0.27 14 50 150# 350# 570# 11460# 9940 11787 10117.78 11283 10020# 11250# 9800# 11250# 470# 100 15 0.18 14 60# 260# 300# 640# ∗ 8160# 10320 10381.5 12285 12278.5 14740# 14400# 16750# 360# 100 0.5 14 2.2 160# 290# 460# 241 U Np Pu Am Cm Bk Cf Es 92 93 94 95 96 97 98 99 4590# 6120 5241.52 6647 6093.3 7630# 6750# 8430# 300# 70 0.03 14 2.1 250# 330# 460# 7890# 5740 6647 4479.96 5097 2910# 3590# 1480# 420# 2490# 70 −1840# 15 −6400# 0.13 −10910# 14 ∗ 200# ∗ 300# ∗ 300# ∗ 300# 210# 260# 230# 13570# 14400 14355.2 15056.94 15022.2 15620# 15790# 16410# 360# 70 1.0 0.27 2.0 220# 350# 310# 10290# 11820 10364.57 11635.3 10140 11570# 9940# 11500# 300# 70 0.27 0.4 50 200# 390# 460# 9220# 9140 11294.2 11126.14 13185.1 13330# 15610# 15200# 410# 90 1.2 0.23 1.2 210# 260# 370# 242 U 92 Np 93 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm 100 5650# 4910 6309.7 5537.64 6969.5 6440# 8090# 6950# ∗ 360# 210 0.7 0.10 1.2 280# 260# 400# ∗ 6070# 6830 4776.08 5419.8 3260# 4060# 1680# 2730# 3820# 360# −320# 70 −4620 0.16 −9500# 0.4 −13590# 200# ∗ 200# ∗ 410# ∗ 460# ∗ 200# 280# 40 330# 400# 12530# 15410 13114 16053.50 14004 16720# 14380# 17640# 14910# 360# 200 15 0.17 14 200# 150# 380# 570# 10150# 11710 10270.1 11743.86 10277.3 11410# 9920# 11690# ∗ 280# 200 1.2 0.28 1.7 220# 240# 390# ∗ 9730# 9790.9 11803.7 11861.7 13990# 13790# 16330# 15900# 280# 1.0 1.0 0.3 200# 110# 400# 450# 243 Np 93 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm 100 5610# 5034.2 6364.9 5692.9 7120# 6460# 8260# 7210# 200# 2.6 1.4 1.0 200# 150# 400# 460# 6030# 6950 4831.3 5575.1 3403 4080# 1840# 3000# 200# 200 1.6 1.0 4 250# 240# 390# 1180# 30# 14390# −3190# 140# 14200 −7610# 230# 14930.1 −12080# 220# 14958.4 ∗ 15699 ∗ 15550# ∗ 16130# ∗ 16130# 300# 70 1.4 1.0 5 250# 350# 310# 12020# 10305 11913.2 10536 11830 10140# 11610# 9930# 30# 15 1.4 14 5 210# 310# 460# 8720# 10687 10508 12703.0 12826 14870# 14760# 16870# 300# 4 15 1.0 14 140# 280# 300# 244 Np 93 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm 100 4750# 6021 5366.5 6801.3 6047 7540# 6830# 8320# 300# 4 1.7 1.0 15 140# 300# 360# ∗ 7360# 5163.5 6011.4 3757 4501 2210# 3060# 30# 2.9 1.4 14 5 230# 370# 2490# 300# 15290# −1674 5 13100 −6150# 180# 15873.4 −10560# 280# 13694.77 ∗ 16621 ∗ 14460# ∗ 17400# ∗ 14750# 360# 200 1.2 0.17 14 200# 190# 430# 11870# 10410 11788.2 10381.70 11876 10240# 11530# 10030# 420# 70 1.0 0.14 14 200# 310# 360# ∗ 9260# 300# 11270 70 11143.26 0.06 13426 14 13422.2 2.8 15570# 270# 15300# 380# 245 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm 100 Md 101 4771 6053 5520.3 6971 6164 7660# 6860# ∗ 14 3 1.0 14 3 270# 400# 7390# 5195 6165.2 3927.2 4618 2330# 3100# 1010# 300# 6 1.4 1.4 15 200# 330# 430# −281 14 13940# −4540# 200# 14855 −9220# 280# 14539.4 −13480# 320# 15342.7 ∗ 15407 ∗ 16200# ∗ 16150# ∗ 16740# 30# 4 1.7 1.7 5 250# 360# 390# 10550 12045 10399.1 11874.3 10520# 11960# 10120# 11760# 200 3 1.0 1.5 200# 200# 430# 510# 10130# 10130 11932.7 11992.2 14228.1 14350# 16530# 15970# 200# 200 1.2 1.4 2.2 280# 280# 460# 246 Pu 94 5782 Am 95 4976 Cm 96 6457.6 Bk 97 5920 Cf 98 7366.5 Es 99 6610# Fm 100 8150# Md 101 7090# 20 18 1.5 60 2.4 300# 280# 460# ∗ 5400 6570 4330 5012.7 2770# 3590# 1230# 23 3 60 1.8 220# 200# 430# 1303 15 12900# −2910# 220# 15900 −7520 40 13448.3 −12310# 340# 16230 ∗ 14087 ∗ 17130# ∗ 14830# ∗ 17980# 300# 18 1.5 60 14 220# 190# 440# 10380# 12103 10306.4 11650 10265 11820# 10220# 11880# 40# 18 1.8 60 5 270# 240# 390# ∗ 10770# 10509.3 12440 12554.5 14860# 14840# 17140# 40# 2.7 60 1.4 220# 150# 400# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(2n) S(2p) Q(α ) Q(2β − ) 531 Q(ε p) Q(β − n) A Elt. Z 240 Pa U Np Pu Am Cm Bk Cf Es 91 92 93 94 95 96 97 98 99 10110# 10736 11284 12180.4 13050 13810 14770# 15310# ∗ 300# 5 15 0.4 50 40 330# 450# ∗ 14490# 13030 11759.9 10522 9017.3 7340# 5940# 4670# 280# 60 1.2 14 1.7 160# 200# 490# 2870# 3840# 4540 5255.75 5710 6397.8 7060# 7719 8370# 400# 200# 200 0.14 50 0.6 180# 10 570# 4490# 2588 803 −1598.4 −4150# −6310# −8530# ∗ ∗ 300# 5 20 1.8 150# 200# 430# ∗ ∗ −8310# −7735.9 −5090 −4153.4 −1020# −450# 2620# −1840# −4669 200# −4346 1.2 −7336.3 14 −7750# 1.7 −10630# 150# −10550# 230# ∗ 460# ∗ 300# 5 15 1.7 100# 230# 260# 241 U Np Pu Am Cm Bk Cf Es 92 93 94 95 96 97 98 99 10520# 11190 11775.72 12598.6 13630# 14330# 14930# ∗ 300# ∗ 70 13650# 0.23 12195.0 1.7 10954.3 100# 9464.4 310# 7870# 330# 6410# 5020# 210# 1.2 1.0 1.2 200# 270# 330# 3570# 4200 5140.0 5637.82 6185.2 7110# 7660# 8320# 200# 3240# 120 1330 0.5 −746.6 0.12 −3170# 0.6 −5660# 210# −7740# 150# ∗ 40# ∗ 300# 70 1.2 200# 260# 300# ∗ −9830# −7047 −6668 −3712.5 −2700# 350# 890# −4190# 310# −3940 5 −6626 15 −6860.7 1.2 −10030# 200# −10000# 260# −12910# 270# ∗ 300# 70 14 1.8 150# 280# 480# 242 U 92 Np 93 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm 100 10240# 11040 11551.2 12185 13062.9 14070# 14840# 15380# ∗ 200# 200 0.7 14 1.7 250# 200# 520# ∗ 13960# 12575 11423 9899.7 8360# 6970 5280# 4210# 360# 5 15 0.4 200# 40 360# 450# 3570# 4220 4984.5 5588.50 6215.56 6890# 7517 8250# 8770# 200# 210 1.0 0.25 0.08 210# 4 150# 570# 3900# 1950 −86.8 −2270# −4530 −7230# −9060# ∗ ∗ 200# 200 0.8 200# 40 380# 400# ∗ ∗ −8770# −6080 −5440.5 −2490# −1650 1570# 1750# −3710# −3610 300# −6288.9 70 −6305.1 0.4 −9370# 200# −9700# 40 −12580# 380# ∗ 480# ∗ 210# 200 0.7 1.2 200# 320# 230# 243 Np 93 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm 100 10530# 11343.9 11902.5 12662.5 13560# 14560# 15200# ∗ 80# 2.7 1.4 1.6 200# 290# 330# ∗ 13020# 11660 10351.1 8823 7340# 5900# 4680# 300# 70 1.0 4 140# 310# 330# 4110# 4756.7 5438.8 6168.8 6874 7330# 8072 8690 200# 2.8 1.0 1.0 4 100# 10 50 2700# 30# 571.9 2.9 −1515 5 −3760# 140# −6090# 230# −8310# 260# ∗ ∗ ∗ −8150# −7530 −4823.8 −4067 −1150# −240# 2630# −2910# 30# 200# −5785.5 2.7 200 −5700.4 1.4 1.2 −8620# 200# 4 −8720 40 140# −12090# 360# 310# −11690# 460# 220# ∗ 244 Np 93 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm 100 10360# 11055 11731.4 12494.2 13160# 14000 15080# 15530# 360# 5 1.0 0.4 200# 40 370# 490# ∗ 13390# 12120 10842.7 9332 7903.9 6290# 4910# 200# 200 0.7 14 2.5 270# 290# 3970# 420# 3320# 300# 4665.5 1.0 1352 5 5141 15 −835 14 5901.74 0.05 −3025.6 2.5 6779 4 −5310# 180# 7328.9 1.8 −7530# 280# 7940# 100# ∗ 8550# 200# ∗ ∗ −2630# ∗ −5442 −7280# 30# −5374.0 −6590.8 2.7 −8309 −3750 14 −8300# −2993.3 2.7 −11380# 50# 180# −11300# 780# 320# ∗ 245 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm 100 Md 101 10792 11419 12321.5 13018 13700# 14490# 15180# ∗ 14 3 1.4 5 140# 310# 350# ∗ 12550# 30# 11328.7 2.9 9938.6 2.0 8374.7 2.4 6830# 200# 5300# 310# 4070# 400# 4480# 5210 5623.0 6454.5 7258.5 7909 8440# 9020# 300# 70 1.0 1.4 1.9 3 100# 230# 2101 14 84 3 −2382.2 2.4 −4620# 200# −6830# 280# −8860# 380# ∗ ∗ ∗ −8590# −6090 −5354.5 −2355.7 −1570# 1450# 1980# 246 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm 100 Md 101 10553 11029 11977.8 12890 13530.1 14270# 15010# ∗ 15 18 1.1 60 2.7 290# 290# ∗ 12790# 300# 11765 5 10490 60 8939.9 1.1 7390# 220# 5920 40 4330# 380# 4350# 5150 5475.1 6070 6861.6 7740# 8378 8880 200# 200 0.9 60 1.0 100# 12 50 2777 15 1030 60 −1473.3 1.5 −3930# 230# −6050 40 −8370# 400# ∗ ∗ ∗ −4576 15 ∗ −4081 18 −7777 14 −7268.3 1.8 −5220 60 −7490 60 −4201.9 1.5 −10420# 200# −1200# 220# −10390# 350# −540 40 −13220# 330# 2550# 390# ∗ 300# 5 1.4 4 140# 230# 280# −4846 14 300# −4625.2 2.9 5 −7782 14 1.7 −7735.1 2.9 2.2 −10710# 180# 200# −10640# 350# 280# ∗ 370# ∗ 532 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 247 Pu Am Cm Bk Cf Es Fm Md 94 95 96 97 98 99 100 101 4470# 5910# 5156 6550 6026 7360# 6630# 8310# 300# 100# 4 60 8 230# 150# 460# ∗ 5530# 6750 4417 5120 2770# 3610# 1390# 100# 18 5 60 30# 270# 330# 2860# −1460# −6050# −10550# ∗ ∗ ∗ ∗ 300# 110# 140# 320# ∗ 14760# 14345 15197 15032 15930# 15860# 16530# 100# 5 5 8 30# 250# 430# 10660# 12210# 10517 11901 10285 12000# 10420# 11900# 420# 100# 4 5 16 30# 230# 430# ∗ 9600# 11375 11256 13329 13540# 15750# 15660# 310# 5 5 8 30# 140# 370# Am Cm Bk Cf Es Fm Md No 95 96 97 98 99 100 101 102 4660# 6213 5480# 6968 6380# 7750# 6970# ∗ 220# 5 70# 9 60# 140# 400# 5720# 7050# 4740# 5540 3130# 3990# 1720# 2670# 360# 100# 70# 7 50# 30# 280# 440# 260# −4514 −9070# −13420# ∗ ∗ ∗ ∗ 210# 13 250# 300# 15880# 13108 16170# 13980 16920# 14720# 17720# 15100# 200# 18 70# 60 50# 220# 240# 450# 12320# 10357 11940# 10288 11780# 10330# 11790# 10240# 200# 6 70# 5 50# 200# 360# 440# ∗ 9933 11830# 11881 14130# 14166 16360# 16090# 14 70# 5 50# 12 310# 410# Am Cm Bk Cf Es Fm Md No 95 96 97 98 99 100 101 102 5530# 4713.37 6300# 5585 7200# 6360# 7890# 6920# 360# 0.25 70# 5 60# 100# 330# 450# ∗ 7100# 4832 5640# 3350# 3970# 1870# 2620# 200# 5 70# 30# 110# 220# 420# 1930# −2870# −7480# −12090# ∗ ∗ ∗ ∗ 300# 100# 220# 340# 14820# 14310# 15027 14946 15750# 15720# 16450# 16480# 420# 100# 4 5 30# 110# 270# 470# 12570# 10620 12095.2 10620 11950# 10580# 12050# 10400# 300# 18 2.2 60 30# 250# 230# 470# ∗ 11001 10501 12753.6 12850# 15170# 15070# 17320# 15 18 1.7 70# 100# 320# 340# 250 Cm Bk Cf Es Fm Md No 96 97 98 99 100 101 102 5832 4970 6625.1 6020# 7620# 6760# 8370# 10 4 1.7 100# 100# 380# 400# 7400# 5088 5966.8 3790# 4390# 2270# 3100# 300# 6 2.2 100# 30# 320# 300# −1085 −5690# −10340# ∗ ∗ ∗ ∗ 16 300# 200# 13140# 16270 13800# 16700# 14480# 17440# 15080# 200# 6 70# 100# 50# 300# 310# 10700# 12282 10545 11950# 10330# 11920# 10340# 100# 5 5 100# 30# 330# 380# 9640# 11440# 11284 13380# 13583 15670# 15580# 300# 100# 4 100# 14 300# 250# 251 Cm Bk Cf Es Fm Md No Lr 96 97 98 99 100 101 102 103 4413 5795 5108 6790# 6158 7680# 6670# ∗ 25 11 4 100# 14 360# 270# ∗ 5050 6106 3949 4530# 2340# 3010# 910# 15 5 6 100# 200# 350# 360# 661 −3800# −8780# −13380# ∗ ∗ ∗ ∗ 24 200# 180# 300# 14260# 15188 14996 15497 15520# 16120# 16300# 16790# 300# 11 5 6 30# 230# 280# 450# 10950# 12699 10920# 12136 10550# 11990# 10630# 12100# 200# 11 70# 8 50# 200# 300# 420# ∗ 10310# 12389 12080# 14393 14370# 16650# 16390# 200# 5 70# 10 210# 180# 380# Cm Bk Cf Es Fm Md No Lr 96 97 98 99 100 101 102 103 5660# 4770# 6172 5290 7241 6470# 8100# 7130# 300# 200# 5 50 10 280# 180# 390# ∗ 5400# 6483 4130 4984 2650# 3440# 1370# 200# 11 50 8 200# 200# 300# 2240# −2100# −6847 −11540# ∗ ∗ ∗ ∗ 300# 280# 14 250# ∗ 16260# 13793 16830 14300# 17270# 14960# 18030# 200# 6 50 100# 200# 300# 320# 10820# 12650# 11048 12430 10510# 11880# 10420# 11890# 420# 200# 5 50 30# 220# 220# 420# ∗ 11080# 10930.24 13090 12738 15100# 14910# 17160# 360# 0.25 50 6 200# 100# 330# Bk Cf Es Fm Md No Lr Rf 97 98 99 100 101 102 103 104 5680# 4804 6350 5539 7400# 6490# 8220# ∗ 410# 4 50 6 280# 100# 340# 5420# 6520# 4309 5230 2810# 3450# 1480# 2340# 470# 200# 5 50 210# 220# 230# 520# −370# −5170# −9670# −14440# ∗ ∗ ∗ ∗ 410# 100# 220# 450# 14990# 14784 15590 15548 16030# 16150# 16480# 16610# 360# 12 5 7 210# 230# 280# 540# 12800# 11214 12706.0 10990# 12090# 10690# 12040# ∗ 360# 7 2.2 100# 210# 320# 300# ∗ 11958 11709 13824 13720# 16040# 15700# 17920# 11 4 3 230# 100# 380# 500# 249 252 253 S(p) Q(d,α ) Elt. 248 S(n) Q(4β − ) A G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 A Elt. Z 247 Pu Am Cm Bk Cf Es Fm Md 94 95 96 97 98 99 100 101 10250# 10890# 11613 12467 13393 13970# 14780# 15390# 300# 100# 4 5 8 200# 310# 460# ∗ ∗ 12150 10987 9446 7780# 6380# 4970# Am Cm Bk Cf Es Fm Md No 95 96 97 98 99 100 101 102 10580# 11369 12030# 12995 13740# 14380 15270# ∗ 200# 5 90# 5 230# 40 410# Am Cm Bk Cf Es Fm Md No 95 96 97 98 99 100 101 102 10190# 10926 11784 12554 13580# 14110# 14860# ∗ Cm Bk Cf Es Fm Md No 96 97 98 99 100 101 102 Cm Bk Cf Es Fm Md No Lr 248 249 250 251 252 253 S(2n) Q(α ) S(2p) Q(2β − ) 533 Q(β − n) Q(ε p) 14 6 8 30# 140# 380# ∗ 4850# 5353 5890 6528 7490# 8213 8830# 110# 3 5 8 30# 18 220# 3460# 1660# −603 −3120# −5450# −7430# ∗ ∗ 300# 100# 9 30# 140# 330# ∗ ∗ −7150 −6793 −3771 −2650# 200# 850# 15 19 8 70# 140# 390# −4070# −3540# −6510 −6672 −9840# −9600# −12770# ∗ 300# 100# 60 5 220# 50# 360# ∗ 12581 11490# 9957 8250# 6763 5330# 4060# 15 70# 5 80# 12 330# 300# 4940# 5161.73 5770# 6361 7160# 8002 8700# 9230# 360# 0.25 70# 5 50# 11 150# 100# 2480# 152 −2220# −4667 −6850# −8760# ∗ ∗ 210# 7 90# 13 240# 300# ∗ −8890# −6360# −5583 −2480# −1519 1250# 1790# 300# 120# 6 50# 14 240# 330# −3040# −6170 −6130# −9440# −9350# −12210# ∗ ∗ 200# 7 70# 30# 150# 320# 310# 5 6 8 40# 180# 390# ∗ 12820# 11880# 10386 8890# 7100# 5860# 4350# 300# 100# 4 30# 100# 230# 370# ∗ 5219 5525.0 6296.0 6940# 7810# 8460# 9170# 14 2.3 0.7 30# 100# 100# 200# 3250# 1025 −1330# −3890# −6150# −8200# ∗ ∗ 300# 5 30# 100# 230# 360# ∗ ∗ −8000# −4956 −4190# −910# −260# 2620# 200# 5 80# 100# 230# 340# −2360# −5400# −5461 −8650# −8800# −11600# −11410# ∗ 300# 70# 5 50# 30# 260# 380# 10546 11270# 12211 13220# 13975 14660# 15290# 10 70# 5 110# 17 380# 360# ∗ 12190# 10798 9430# 7744 6240# 4970# 200# 5 120# 13 310# 200# 5169 5532 6128.44 6830# 7557 8310# 8950# 18 18 0.19 120# 12 200# 200# 1817 −280# −2902 −5410# −7440# ∗ ∗ 11 100# 12 320# 200# ∗ −7440# −6867 −3910# −2941 170# 610# 300# 5 100# 12 300# 230# −4932 −4846 −8080# −8460# −11320# −11250# ∗ 11 4 30# 140# 220# 450# 96 97 98 99 100 101 102 103 10245 10765 11734 12810# 13780# 14440# 15040# ∗ 23 11 4 30# 100# 300# 380# ∗ 12450# 11193 9915 8317 6730# 5280# 4010# 300# 5 6 8 210# 200# 370# 5230# 5650# 6175.8 6596.7 7425.1 7990# 8910# 9430# 300# 100# 1.0 2.6 2.0 200# 100# 440# 2513 715 −1852 −4520# −6930# −8870# ∗ ∗ 22 12 9 200# 180# 360# ∗ ∗ −6143 −5728 −2474 −1490# 1550# 1970# 11 7 8 230# 180# 420# −4375 −4015 −7160# −7633 −10720# −10560# ∗ ∗ 23 11 100# 13 300# 290# Cm Bk Cf Es Fm Md No Lr 96 97 98 99 100 101 102 103 10080# 10560# 11280 12080# 13399 14150# 14780# ∗ 300# 200# 5 110# 13 360# 200# ∗ ∗ 11533 10240 8932 7180# 5770 4380# 10 50 6 220# 17 390# ∗ 5550# 6216.87 6790# 7152.7 7900# 8550 9260# 280# 0.04 50# 2.0 200# 6 70# 3020# 1240# −783 −3340# −6064 −8210# ∗ ∗ 300# 210# 7 200# 14 320# ∗ ∗ −7903 −5220 −4606 −1170# −395 2520# 23 50 7 200# 15 320# −4240# −3670# −6550 −6760 −10280# −10360# −13090# ∗ 300# 200# 7 50 200# 260# 300# Bk Cf Es Fm Md No Lr Rf 97 98 99 100 101 102 103 104 10440# 10976 11641 12780 13870# 14590# 15350# ∗ 360# 6 6 9 290# 200# 370# ∗ 11925 10792 9363 7790# 6100# 4920# 3700# 23 11 5 210# 100# 300# 490# 5400# 6126 6739.16 7199 7700# 8421 8937 9550# 200# 4 0.05 3 210# 8 9 300# 1920# −49 −2290# −5120# −7390# −9330# ∗ ∗ 360# 7 210# 100# 300# 470# ∗ −7040# −6810# −3973 −3280# 360# 770# 3620# 300# 200# 6 210# 100# 300# 450# −3180# −6060 −5875 −9350# −9650# −12440# ∗ ∗ 360# 50 6 200# 210# 270# 534 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z 254 Bk Cf Es Fm Md No Lr Rf 97 98 99 100 101 102 103 104 4610# 6032 5093 6517 5860# 7810# 6910# 8540# 470# 12 4 4 230# 100# 400# 540# ∗ 6880# 4598 5398.5 3120# 3870# 1910# 2660# 360# 7 2.9 100# 210# 350# 360# 880# −3384 −7860# −12420# ∗ ∗ ∗ ∗ 310# 21 340# 290# 16050# 13520# 16669 14320 17410# 14810# 17680# 15190# 420# 200# 6 50 100# 200# 340# 380# 12610# 10977 12721 11256 12390# 10560# 11800# 10290# 300# 16 6 6 100# 200# 380# 410# ∗ 10340 12411 12416 14650# 14384 16470# 16050# 25 11 5 100# 19 390# 340# 255 Cf Es Fm Md No Lr Rf Db 98 99 100 101 102 103 104 105 4600# 5974 5176 6740# 5942 7860# 7000# ∗ 200# 12 5 100# 20 390# 340# 6870# 4541 5482 3350 3950# 1960# 2740# 570# 360# 16 6 7 100# 210# 380# 510# −2050# −5970# −10600# −15200# ∗ ∗ ∗ ∗ 200# 210# 180# 420# 14590# 15499 15496 16204 16260# 16300# 16420# 16960# 410# 12 5 7 210# 230# 280# 620# 11140# 12919 11370 12890 11090# 12040# 10420# ∗ 280# 11 50 8 200# 210# 300# 11400# 11200# 13412 13200 15683 15070# 17160# 16850# 360# 200# 5 50 11 280# 180# 490# 256 Cf Es Fm Md No Lr Rf Db 98 99 100 101 102 103 104 105 5840# 4970# 6384 5300 7101 6260# 8230# 7390# 360# 100# 7 50 13 300# 180# 510# ∗ 4910# 5892 3470 4308 2270# 3110# 970# 220# 12 50 10 220# 210# 340# −790# −4690# −8750 −13100# ∗ ∗ ∗ ∗ 300# 240# 25 300# 13360# 16560# 14205 17420 15020# 17860# 15100# 18110# 420# 100# 8 50 100# 220# 340# 410# 10970# 12750# 11336 13130 11390# 12270# 10410# 11790# 470# 100# 7 50 210# 240# 230# 540# ∗ 11900# 11831 14250 14121 16220# 15420# 17680# 370# 6 50 8 300# 100# 370# 257 Es Fm Md No Lr Rf Db 99 100 101 102 103 104 105 5850# 4968 6690 5655 7210# 6370# 8450# 420# 6 50 23 300# 110# 370# 4920# 5890# 3779 4660 2380# 3230# 1180# 510# 100# 7 60 210# 240# 230# −3330# −7350# −11350# ∗ ∗ ∗ ∗ 460# 100# 230# 15310# 15211 15908 16108 16590# 16590# 16660# 460# 12 5 23 210# 230# 290# 12930# 11462 12956 11590# 12880# 10950# 11890# 410# 7 3 100# 210# 350# 360# 10660# 12895 12651 14983 14870# 16860# 16140# 510# 12 4 22 230# 100# 400# 258 Es Fm Md No Lr Rf Db Sg 99 100 101 102 103 104 105 106 4770# 6240# 5379 6830# 5970# 7610# 6670# ∗ 510# 200# 5 200# 230# 230# 410# ∗ 6270# 4190 4810# 2690# 3630# 1480# 2220# 460# 7 200# 100# 290# 360# 470# −2140# −5970# −10060# −13940# ∗ ∗ ∗ ∗ 320# 280# 340# 460# 16370# 13950# 16913 14570# 17730# 15240# 18220# 15410# 420# 220# 8 210# 100# 300# 340# 510# 12760# 11200# 12753 11500# 12850# 11210# 12210# 10240# 360# 200# 6 200# 100# 290# 390# 590# ∗ 11260# 13246 13330# 15640# 15190# 17340# 16670# 280# 12 200# 100# 200# 400# 450# 259 Fm Md No Lr Rf Db Sg 100 101 102 103 104 105 106 4790# 6140# 5440# 7060# 6070# 7720# 6830# 350# 200# 220# 120# 210# 400# 450# 6290# 4090# 4870# 2920# 3730# 1590# 2380# 410# 280# 100# 210# 130# 290# 390# −4700# −8480# −12550# ∗ ∗ ∗ ∗ 290# 290# 200# 15010# 15750# 15820# 16320# 16380# 16880# 17030# 500# 200# 100# 70# 220# 240# 290# 11380# 13000# 11360# 12890# 11390# 12730# 10800# 300# 200# 110# 70# 230# 210# 340# 12310# 12080# 14270# 13880# 16220# 15880# 18070# 410# 220# 100# 90# 70# 310# 180# 260 Fm Md No Lr Rf Db Sg Bh 100 101 102 103 104 105 106 107 6130# 5140# 6570# 5650# 7320# 6500# 8140# ∗ 570# 370# 220# 140# 210# 310# 180# ∗ 4440# 5300# 3120# 3990# 2010# 2810# 330# 420# 280# 150# 210# 240# 220# 610# −3510# −7130# −10970# −15340# ∗ ∗ ∗ ∗ 540# 390# 200# 590# 13650# 16840# 14630# 17510# 15020# 17990# 15550# 18910# 580# 370# 200# 230# 230# 310# 350# 710# 11100# 12830# 11480# 12900# 11280# 12610# 11110# ∗ 650# 320# 200# 120# 290# 250# 230# ∗ 12790# 12670# 14930# 14560# 16590# 16300# 18920# 520# 200# 120# 200# 310# 110# 620# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(2β − ) Q(α ) Elt. Z 254 Bk Cf Es Fm Md No Lr Rf 97 98 99 100 101 102 103 104 10280# 10836 11440 12056 13260# 14299 15130# ∗ 360# 11 50 6 220# 22 420# ∗ 12290# 11120# 9708 8360# 6671 5360# 4140# 300# 200# 5 110# 18 390# 290# ∗ 5927 6615.7 7307.5 7860# 8226 8790# 9380# 5 1.5 1.9 140# 13 150# 200# 2400# 437 −1520# −3820 −6330# −8600# ∗ ∗ 300# 12 100# 18 350# 290# ∗ ∗ −6230# −5686 −2790# −1914 1260# 1570# Cf Es Fm Md No Lr Rf Db 98 99 100 101 102 103 104 105 10640# 11067 11693 12600# 13760# 14770# 15540# ∗ 200# 11 6 210# 100# 310# 490# ∗ 11420# 10080 8749 7074 5820# 4650# 3230# 360# 6 7 11 290# 200# 480# 5740# 6436.3 7239.7 7905.9 8442 8610# 9058 9720# 200# 1.3 1.8 2.6 6 30# 9 300# 1010# −754 −3054 −5210# −7540# −9980# ∗ ∗ 200# 13 11 210# 180# 470# ∗ −7590# −4830 −4438 −1340 −750# 2380# 2910# Cf Es Fm Md No Lr Rf Db 98 99 100 101 102 103 104 105 10450# 10950# 11561 12040# 13043 14120# 15230# ∗ 300# 100# 7 110# 19 400# 290# ∗ 11790# 10433 8950 7658 6220# 5067 3710# 310# 12 50 8 240# 30 450# 5560# 6230# 7027 7897 8581 8820# 8930 9460# 420# 220# 5 16 5 100# 20 150# 1550# −430# −2338 −4260# −6412 −8850# ∗ ∗ 300# 110# 10 230# 25 370# Es Fm Md No Lr Rf Db 99 100 101 102 103 104 105 10830# 11352 11989 12756 13470# 14610# 15840# 410# 6 7 24 290# 200# 480# ∗ 10800# 9671 8137 6690# 5500# 4290# 200# 11 22 210# 100# 310# 6050# 6863.5 7557.6 8466 9010# 9044 9230 200# 1.4 1.0 21 30# 15 15 410# −1651 −3740# −5690# −7610# ∗ ∗ Es Fm Md No Lr Rf Db Sg 99 100 101 102 103 104 105 106 10630# 11200# 12070 12490# 13180# 13980# 15120# ∗ 310# 200# 50 200# 240# 200# 450# ∗ 11190# 10080# 8590# 7350# 6000# 4700# 3400# 360# 100# 200# 120# 200# 410# 420# 5880# 6660# 7271.3 8150# 8900 9250# 9480# 9670# 420# 200# 1.9 200# 20 200# 70# 300# Fm Md No Lr Rf Db Sg 100 101 102 103 104 105 106 11030# 11520# 12270# 13030# 13680# 14380# ∗ 280# 200# 100# 220# 130# 310# ∗ 10360# 9060# 7720# 6420# 5210# 3860# 460# 100# 70# 80# 300# 210# 6470# 7110# 7890# 8580# 9120# 9620 9830 Fm Md No Lr Rf Db Sg Bh 100 101 102 103 104 105 106 107 10930# 11280# 12010# 12710# 13390# 14220# 14970# ∗ 540# 320# 280# 150# 280# 410# 420# ∗ 10730# 9390# 7990# 6910# 5740# 4390# 2710# 440# 280# 120# 280# 250# 200# 670# 6180# 6940# 7700# 8240# 8900# 9380 9920 10470# 256 257 258 259 260 S(2p) Q(β − n) Q(ε p) A 255 S(2n) 535 360# 6 100# 18 390# 300# −2980# −5744 −5429 −8470# −9020# −12030# −12020# ∗ 300# 12 5 210# 140# 230# 560# 300# 12 7 10 230# 180# 540# −5250# −4887 −7790# −7953 −11060# −11330# ∗ ∗ 200# 11 100# 19 340# 350# ∗ ∗ −6610# −3760 −3264 −260# 93 3370# 200# 50 9 220# 26 360# −5120# −4680# −7428 −7310 −10310# −10600# −13880# ∗ 300# 100# 9 50 210# 280# 420# 410# 22 210# 110# 310# ∗ −5740# −5480# −2535 −2170# 820# 1180# 300# 100# 23 210# 100# 320# −4150# −7100 −6899 −9700# −9570# −12860# ∗ 410# 50 8 220# 210# 310# 1010# −1050# −3150# −4920# −6910# −9020# ∗ ∗ 300# 280# 100# 280# 360# 460# ∗ ∗ −5000# −4400# −1450# −1130# 1720# 2190# 410# 200# 100# 200# 400# 430# −3960# −6640# −6624 −9330# −9170# −12010# ∗ ∗ 300# 200# 22 290# 150# 300# 200# 200# 100# 70# 70# 50 30 −410# −2230# −4290# −6250# −8260# ∗ ∗ 300# 210# 120# 220# 190# ∗ −6370# −3610# −3130# −370# −30# 2970# 360# 220# 70# 210# 240# 270# −6060# −5930# −8800# −8620# −11420# −11390# ∗ 280# 280# 140# 210# 350# 470# 400# 300# 200# 100# 200# 70 30 500# 30# −1730# −3540# −5400# −7440# −9940# ∗ ∗ 540# 340# 280# 260# 200# 620# ∗ ∗ −5380# −2640# −2250# 540# 900# 4220# 350# 230# 220# 240# 80# 620# −6050# −5630# −8310# −8200# −11020# −11050# ∗ ∗ 540# 330# 210# 140# 290# 290# 536 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) Q(4β − ) S(p) Q(d,α ) Q(p,α ) Q(n,α ) A Elt. Z 261 Md No Lr Rf Db Sg Bh 101 102 103 104 105 106 107 6140# 5180# 6790# 5910# 7370# 6490# 8360# 720# 360# 230# 200# 330# 130# 620# 4450# 5340# 3340# 4250# 2060# 2800# 540# 820# 440# 280# 120# 310# 260# 230# −5900# −9660# −13770# ∗ ∗ ∗ ∗ 690# 330# 310# 15490# 15590# 16160# 16180# 16690# 16770# 17380# 710# 360# 220# 80# 240# 250# 290# 12920# 11680# 12950# 11340# 12840# 11280# 12780# 680# 300# 280# 110# 310# 370# 470# 11420# 13730# 13520# 15480# 15190# 17410# 17230# 710# 360# 200# 200# 250# 240# 410# 262 Md No Lr Rf Db Sg Bh 101 102 103 104 105 106 107 5140# 6630# 5510# 6990# 6180# 7810# 6930# 870# 540# 280# 280# 290# 310# 410# ∗ 5820# 3670# 4460# 2340# 3240# 980# 790# 360# 350# 180# 370# 370# −4860# −8470# −12350# ∗ ∗ ∗ ∗ 610# 530# 400# 16470# 14110# 17220# 14830# 17830# 15460# 18600# 770# 550# 280# 310# 270# 370# 350# 12570# 11190# 12880# 11410# 12730# 11190# 12680# 650# 490# 220# 290# 200# 350# 390# ∗ 11890# 14150# 13930# 16060# 15670# 18020# 530# 280# 300# 200# 290# 410# 263 No Lr Rf Db Sg Bh Hs 102 103 104 105 106 107 108 5040# 6530# 5630# 7230# 6280# 7940# ∗ 660# 410# 340# 250# 310# 500# 5720# 3570# 4580# 2570# 3340# 1110# 2010# 760# 580# 270# 330# 220# 460# 490# −7240# −10940# −14910# ∗ ∗ ∗ ∗ 510# 520# 390# 15210# 15880# 15990# 16510# 16550# 17160# 17130# 810# 470# 270# 170# 260# 390# 420# 11290# 12920# 11430# 12830# 11410# 12890# 11000# 580# 410# 220# 260# 260# 370# 680# 12980# 12760# 14870# 14480# 16710# 16580# 18810# 700# 480# 270# 200# 240# 430# 350# 264 No Lr Rf Db Sg Bh Hs 102 103 104 105 106 107 108 6400# 5510# 6730# 5820# 7500# 6610# 8220# 810# 570# 480# 290# 310# 460# 350# ∗ 4040# 4780# 2770# 3620# 1440# 2300# 660# 580# 290# 330# 300# 370# −6140# −9840# −13420# ∗ ∗ ∗ ∗ 700# 520# 450# 13950# 16990# 14760# 17680# 15230# 18350# 15840# 870# 630# 490# 370# 340# 400# 350# 11030# 12590# 11480# 12910# 11270# 12770# 11130# 910# 530# 490# 230# 370# 300# 230# ∗ 13390# 13320# 15450# 15120# 17340# 17080# 780# 540# 310# 280# 360# 130# 265 Lr Rf Db Sg Bh Hs Mt 103 104 105 106 107 108 109 6390# 5540# 6960# 6040# 7570# 6500# ∗ 840# 620# 370# 290# 470# 140# 4030# 4810# 2990# 3830# 1500# 2180# 60# 960# 610# 530# 240# 470# 310# 460# −8670# −12460# −16350# ∗ ∗ ∗ ∗ 810# 450# 540# 15640# 15750# 16350# 16420# 17070# 17280# 17780# 870# 560# 340# 180# 400# 390# 580# 12820# 11450# 12950# 11410# 13010# 11560# ∗ 840# 470# 400# 190# 470# 370# 12140# 14410# 14000# 16070# 15950# 18400# 18000# 920# 620# 350# 290# 420# 310# 580# 266 Lr Rf Db Sg Bh Hs Mt 103 104 105 106 107 108 109 4840# 6910# 5810# 7190# 6400# 8060# 7000# 970# 690# 460# 290# 430# 320# 580# ∗ 5320# 3260# 4060# 1860# 2680# 570# 890# 560# 400# 210# 470# 370# −7110# −11310# −15160# ∗ ∗ ∗ ∗ 690# 610# 500# 17190# 14360# 17270# 15050# 18170# 15830# 19010# 920# 690# 580# 370# 350# 400# 350# 13020# 11070# 12770# 11460# 12890# 11440# 13010# 820# 650# 400# 330# 240# 460# 490# ∗ 12540# 14720# 14510# 16780# 16620# 18930# 730# 510# 340# 260# 310# 500# 267 Rf Db Sg Bh Hs Mt Ea 104 105 106 107 108 109 110 4740# 6820# 5870# 7410# 6500# 8060# ∗ 790# 590# 390# 330# 300# 640# 5220# 3170# 4130# 2090# 2770# 570# 730# 870# 710# 450# 390# 230# 610# 500# −9560# −13910# −18550# ∗ ∗ ∗ ∗ 580# 720# 460# 16010# 16000# 16140# 16800# 16900# 17440# 18340# 920# 630# 390# 270# 390# 560# 590# 11840# 12680# 11410# 12990# 11560# 13170# ∗ 720# 650# 360# 390# 300# 550# 14200# 13410# 15370# 15190# 17620# 17480# 20500# 860# 640# 520# 350# 300# 610# 370# 268 Rf Db Sg Bh Hs Mt Ea 104 105 106 107 108 109 110 6100# 5210# 6970# 6110# 7720# 6750# 8580# 910# 710# 600# 460# 430# 630# 620# ∗ 3640# 4280# 2330# 3090# 830# 1250# 780# 710# 470# 490# 330# 740# −7940# −12370# −16940# ∗ ∗ ∗ ∗ 820# 620# 740# 14750# 17690# 14970# 17870# 15570# 18750# 16760# 960# 760# 650# 470# 460# 420# 610# 12130# 13010# 11390# 12910# 11400# 12920# 11980# 1000# 680# 610# 380# 560# 340# 680# ∗ 14590# 13940# 16040# 15940# 18300# 18420# 890# 690# 470# 420# 490# 520# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(2β − ) Q(α ) Elt. Z 261 Md No Lr Rf Db Sg Bh 101 102 103 104 105 106 107 11290# 11750# 12430# 13230# 13870# 14640# ∗ 680# 320# 210# 80# 310# 220# ∗ 9780# 8640# 7370# 6050# 4820# 3350# 410# 280# 100# 240# 140# 310# 6650# 7490# 8140# 8650 9220# 9800# 10560 500# 300# 200# 19 100# 70# 50 −1080# −2810# −4820# −6850# −8950# ∗ ∗ 680# 300# 310# 130# 330# ∗ −4430# −4280# −1590# −1190# 1720# 2370# Md No Lr Rf Db Sg Bh 101 102 103 104 105 106 107 11290# 11800# 12300# 12900# 13550# 14300# 15280# 660# 490# 230# 350# 290# 290# 670# ∗ 10270# 9010# 7800# 6590# 5300# 3780# 670# 370# 350# 220# 350# 420# 6280# 7100# 8010# 8490# 9010# 9600# 10300 500# 400# 200# 200# 150# 200# 25 −720# −2440# −4150# −6030# −8200# ∗ ∗ 620# 530# 270# 400# 390# No Lr Rf Db Sg Bh Hs 102 103 104 105 106 107 108 11670# 12040# 12620# 13410# 14090# 14870# ∗ 580# 410# 190# 290# 180# 430# ∗ 9390# 8250# 7030# 5680# 4350# 2990# 740# 350# 260# 130# 430# 370# 6850# 7620# 8300# 8830# 9390# 10080# 10670# 400# 300# 150# 150# 100# 300# 300# −1860# −3440# −5380# −7500# −9540# ∗ ∗ No Lr Rf Db Sg Bh Hs 102 103 104 105 106 107 108 11450# 12040# 12360# 13050# 13780# 14550# ∗ 780# 480# 530# 290# 400# 440# ∗ 9760# 8350# 7340# 6190# 4780# 3400# 730# 630# 310# 400# 330# 290# 6580# 7250# 8140# 8660# 9210# 9970# 10591 400# 300# 400# 200# 200# 150# 20 Lr Rf Db Sg Bh Hs Mt 103 104 105 106 107 108 109 11910# 12270# 12780# 13540# 14180# 14720# ∗ 800# 460# 330# 140# 530# 370# ∗ 8850# 7770# 6600# 5120# 3620# 2360# 650# 460# 190# 410# 180# 590# 7000# 7780# 8490# 9080 9770# 10590 11070# Lr Rf Db Sg Bh Hs Mt 103 104 105 106 107 108 109 11240# 12440# 12770# 13220# 13960# 14560# ∗ 790# 700# 430# 400# 340# 290# ∗ 9350# 8070# 7050# 5690# 4180# 2750# 840# 570# 530# 310# 400# 440# Rf Db Sg Bh Hs Mt Ea 104 105 106 107 108 109 110 11650# 12630# 13060# 13810# 14560# 15070# ∗ 710# 550# 280# 460# 170# 710# ∗ 8490# 7390# 6150# 4640# 3250# 1300# Rf Db Sg Bh Hs Mt Ea 104 105 106 107 108 109 110 10850# 12030# 12850# 13520# 14220# 14810# ∗ 890# 640# 610# 430# 500# 470# ∗ 8860# 7450# 6450# 5170# 3600# 1820# 263 264 265 266 267 268 S(2p) Q(β − n) Q(ε p) A 262 S(2n) 537 580# 370# 200# 260# 240# 330# −5200# −7840# −7660# −10430# −10280# −13520# ∗ 680# 320# 280# 230# 230# 590# ∗ ∗ −3640# −3400# −580# −180# 2810# 680# 410# 270# 290# 420# −5170# −7680# −7260# −10060# −9960# −12980# ∗ 660# 490# 200# 370# 220# 370# 520# 400# 220# 400# 370# ∗ −5030# −2400# −2300# 530# 1050# 4040# 690# 480# 260# 310# 410# 450# −7220# −6800# −9500# −9390# −12330# ∗ ∗ 530# 460# 260# 330# 370# −1530# −3140# −4610# −6710# −8820# ∗ ∗ 780# 490# 530# 360# 290# ∗ ∗ −4090# −1600# −1340# 1670# 2090# 660# 430# 340# 320# 130# −7090# −6680# −9010# −8930# −11890# −11760# ∗ 730# 470# 480# 260# 460# 450# 300# 300# 200# 50 300# 50 400# −2570# −4110# −6100# −8360# −10250# ∗ ∗ 770# 430# 470# 150# 600# ∗ −3230# −3040# −650# −80# 3100# 3470# 770# 520# 450# 440# 310# 540# −6340# −8720# −8380# −11320# −11100# ∗ ∗ 840# 480# 400# 280# 380# 7300# 7500# 8190# 8880 9550# 10336 10996 300# 300# 300# 30 90# 20 25 −1610# −3830# −5510# −7480# −9650# ∗ ∗ 750# 610# 410# 400# 400# ∗ ∗ −2450# −2300# 480# 1080# 4030# 800# 510# 350# 290# 510# −5650# −8670# −8150# −10940# −11000# −13710# ∗ 780# 610# 370# 470# 240# 540# 850# 500# 390# 120# 660# 390# 7800# 7900# 8640# 9370# 10120# 10870# 12280# 300# 300# 200# 200# 70# 400# 110# −2700# −4910# −6860# −9000# −11690# ∗ ∗ 640# 540# 290# 600# 380# ∗ −4430# −1260# −1120# 1770# 2370# 5980# 810# 600# 450# 300# 580# 460# −7610# −7780# −10420# −10350# −13200# ∗ ∗ 680# 550# 340# 390# 360# 840# 760# 520# 500# 370# 580# 8100# 8200# 8400# 9080# 9900# 10730# 11920# 300# 300# 300# 300# 300# 150# 500# −1830# −4020# −6110# −8360# −10840# ∗ ∗ 890# 650# 680# 490# 650# ∗ ∗ −3490# −420# −80# 3030# 3890# 790# 600# 490# 410# 510# −6890# −7120# −9980# −9970# −12860# −13300# ∗ 850# 590# 600# 390# 680# 480# 538 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(p,α ) Q(n,α ) Z 269 Db Sg Bh Hs Mt Ea 105 106 107 108 109 110 6190# 5140# 7200# 6310# 7770# 6830# 940# 850# 560# 430# 640# 520# 3730# 4210# 2550# 3280# 870# 1330# 1050# 840# 680# 400# 690# 340# −10800# −15250# ∗ ∗ ∗ ∗ 950# 670# 16240# 16650# 16550# 16680# 17480# 17990# 960# 810# 490# 290# 560# 560# 13720# 12060# 12900# 11490# 13210# 12150# 940# 750# 500# 230# 620# 370# 13240# 15710# 14650# 16820# 16930# 19640# 1010# 850# 550# 310# 590# 320# 270 Db Sg Bh Hs Mt Ea 105 106 107 108 109 110 5040# 6610# 5350# 7520# 6580# 8450# 1060# 900# 630# 310# 770# 320# ∗ 4620# 2760# 3600# 1140# 2010# 990# 810# 500# 550# 620# −9260# −13410# ∗ ∗ ∗ ∗ 900# 680# 17290# 15260# 18170# 15270# 18620# 16290# 1010# 810# 710# 470# 680# 430# 13420# 12270# 13430# 11390# 13120# 11770# 920# 780# 540# 390# 550# 620# ∗ 13840# 16120# 15170# 17760# 17690# 840# 660# 390# 600# 310# 271 Sg Bh Hs Mt Ea 106 107 108 109 110 5140# 6620# 5270# 7620# 6820# 900# 730# 440# 780# 310# 4720# 2770# 3530# 1250# 2250# 970# 830# 580# 630# 550# −11730# ∗ ∗ ∗ ∗ 660# 16310# 16700# 17200# 17310# 17240# 1010# 860# 530# 580# 560# 12340# 13780# 12230# 13230# 11700# 840# 780# 510# 700# 330# 14800# 14710# 16870# 16250# 18590# 960# 770# 640# 680# 430# 272 Sg Bh Hs Mt Ea Eb 106 107 108 109 110 111 6500# 5410# 6770# 5650# 7830# ∗ 1000# 830# 670# 740# 660# ∗ 3040# 3680# 1630# 2470# 250# 890# 800# 590# 860# 350# −10400# −14520# ∗ ∗ ∗ ∗ 1000# 690# 14850# 17890# 15770# 19180# 15980# 19000# 1050# 870# 740# 560# 840# 440# 12030# 13510# 12650# 13880# 11630# 12770# 1090# 890# 710# 500# 850# 360# ∗ 15490# 15240# 17800# 17070# 19210# 980# 870# 640# 660# 640# Sg Bh Hs Mt Ea Eb 106 107 108 109 110 111 5220# 6590# 5340# 6980# 5700# 8010# 1010# 1030# 1010# 700# 660# 690# ∗ 3130# 3610# 1830# 2520# 430# 1130# 1030# 770# 500# 890# −9910# −13100# ∗ ∗ ∗ ∗ 670# 1030# ∗ 16440# 17050# 17470# 17910# 17810# 1050# 1000# 610# 580# 610# 11860# 13520# 12660# 14420# 12510# 13210# 980# 1030# 950# 590# 550# 670# ∗ 13940# 16510# 16170# 18890# 17780# 1100# 1030# 690# 310# 810# Bh Hs Mt Ea Eb 107 108 109 110 111 5440# 7010# 5670# 7490# 6180# 1140# 1050# 760# 510# 860# 3360# 4020# 2160# 3020# 910# 1020# 1050# 1000# 710# 630# −12360# ∗ ∗ ∗ ∗ 1000# 17490# 15460# 18570# 16070# 19460# 1090# 890# 800# 690# 900# 13220# 12270# 14030# 12650# 13850# 1010# 860# 650# 750# 630# ∗ 14640# 17120# 16670# 19220# 920# 790# 600# 840# Bh Hs Mt Ea Eb 107 108 109 110 111 6390# 5440# 7000# 5570# 7670# 1020# 960# 810# 670# 930# ∗ 4020# 2150# 2930# 1100# −11080# ∗ ∗ ∗ ∗ 950# 1060# 880# 720# 850# 16330# 16610# 16920# 17480# 17490# 930# 1100# 1020# 680# 700# 13330# 12240# 13800# 12730# 14020# 1010# 940# 830# 660# 950# ∗ 15700# 15530# 17870# 17200# 1050# 850# 730# 840# 276 Hs Mt Ea Eb 108 109 110 111 6900# 5730# 7270# 5880# 1090# 900# 760# 930# 4530# 2440# 3200# 1410# 1050# 990# 850# 770# 15150# 18190# 15870# 19100# 1140# 940# 830# 800# 11930# 13410# 12430# 13840# 1170# 1070# 790# 640# 14020# 16390# 15940# 18300# 1060# 1070# 1030# 810# 277 Hs Mt Ea Eb Ec 108 109 110 111 112 5620# 6890# 5640# 7120# ∗ 1100# 1110# 1140# 880# ∗ 2430# 3110# 1250# 2210# 1210# 1180# 870# 640# 15920# 16740# 17230# 17550# 17980# 980# 1140# 1130# 770# 700# 11760# 13520# 12460# 14200# 12530# 1070# 1100# 1110# 790# 630# ∗ 14940# 17310# 16850# 19110# 1180# 1160# 830# 510# Mt Ea Eb Ec 109 110 111 112 5840# 7310# 6130# 7730# 1220# 1180# 890# 550# 2660# 3520# 1740# 2820# 1110# 1110# 1150# 820# 17790# 15660# 18690# 16130# 1170# 960# 880# 820# 13120# 12150# 13650# 12480# 1100# 900# 780# 870# 15490# 15440# 17720# 16950# 1060# 990# 870# 700# 274 275 278 S(p) Q(d,α ) Elt. 273 S(n) Q(4β − ) A ∗ ∗ ∗ ∗ −13140# ∗ ∗ ∗ ∗ ∗ ∗ ∗ ∗ 740# G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(2β − ) Z 269 Db Sg Bh Hs Mt Ea 105 106 107 108 109 110 11410# 12110# 13310# 14030# 14520# 15410# 910# 710# 490# 160# 770# 390# ∗ 7850# 6830# 5610# 3960# 2160# 870# 630# 300# 610# 170# 8400# 8800# 8840# 9630# 10530# 11580 300# 500# 300# 100# 400# 70 −3010# −4940# −7790# −10310# ∗ ∗ 880# 670# 690# 180# ∗ −2530# −2400# 580# 1370# 4790# Db Sg Bh Hs Mt Ea 105 106 107 108 109 110 11240# 11740# 12550# 13830# 14350# 15280# 890# 820# 600# 500# 620# 580# ∗ 8350# 6970# 6150# 4420# 2880# 940# 710# 610# 660# 500# 8200# 9100# 9300# 9300 10350# 11200 300# 300# 300# 30 500# 50 −2710# −4030# −6560# −9380# ∗ ∗ 860# 680# 720# 410# Sg Bh Hs Mt Ea 106 107 108 109 110 11750# 11970# 12790# 14200# 15270# 920# 690# 360# 790# 170# ∗ 7390# 6290# 4850# 3400# 950# 740# 700# 160# 8700# 9500# 9900# 10140# 10870 300# 300# 200# 500# 20 −3900# −5550# −7830# ∗ ∗ Sg Bh Hs Mt Ea Eb 106 107 108 109 110 111 11650# 12030# 12040# 13270# 14660# ∗ 980# 770# 640# 720# 710# ∗ 7760# 6450# 5150# 3710# 2510# 940# 840# 670# 710# 630# 8300# 9300# 10100# 10600# 10760# 11440# 300# 300# 200# 300# 500# 100# Sg Bh Hs Mt Ea Eb 106 107 108 109 110 111 11720# 12010# 12110# 12630# 13530# ∗ 930# 1000# 890# 760# 170# ∗ ∗ 6650# 5510# 4140# 2900# 1050# 760# 360# 830# ∗ 8900# 9900# 10820# 11370 11200# Bh Hs Mt Ea Eb 107 108 109 110 111 12040# 12340# 12650# 13190# 14190# 990# 870# 740# 810# 700# ∗ 7150# 5770# 4850# 3420# 1000# 830# 760# 780# Bh Hs Mt Ea Eb 107 108 109 110 111 11830# 12450# 12670# 13060# 13850# 1060# 1090# 780# 470# 920# ∗ 7380# 6170# 5090# 4120# Hs Mt Ea Eb 108 109 110 111 12350# 12730# 12840# 13550# 1050# 880# 780# 880# Hs Mt Ea Eb Ec 108 109 110 111 112 12520# 12630# 12910# 13000# ∗ Mt Ea Eb Ec 109 110 111 112 12740# 12940# 13250# ∗ 272 273 274 275 276 277 278 Q(β − n) Q(ε p) Elt. 271 S(2p) Q(α ) A 270 S(2n) 539 960# 670# 550# 670# 430# −6340# −9000# −9440# −12420# −12490# ∗ 940# 760# 580# 340# 750# ∗ ∗ −1550# −1800# 1990# 2640# 910# 720# 680# 310# −6250# −8410# −8480# −12170# −12230# ∗ 970# 740# 480# 620# 560# 730# 790# 350# ∗ −3130# −460# −280# 3340# 910# 700# 730# 310# −8210# −7580# −10870# −11410# ∗ 800# 630# 640# 630# −3630# −5320# −6770# −9200# ∗ ∗ 960# 780# 870# 590# ∗ ∗ −2090# 680# 780# 4330# 870# 740# 730# 660# −8090# −7720# −10020# −10240# ∗ ∗ 950# 700# 810# 490# 300# 500# 300# 50 250# −3510# −4930# −6410# −8170# ∗ ∗ 1060# 970# 830# 790# ∗ ∗ −930# −880# 1850# 1970# 1130# 790# 590# 770# −7900# −7540# −9700# −9380# −12500# ∗ 900# 1010# 960# 830# 360# 8500# 9500# 10500# 11400# 11600# 300# 200# 300# 400# 300# −4710# −5930# −7660# ∗ ∗ 960# 810# 830# ∗ −2720# 50# −300# 2770# 930# 1000# 960# 800# −7650# −9730# −9350# −11970# ∗ 1140# 830# 570# 780# 970# 1020# 940# 860# ∗ 9200# 10120# 11100# 11550# 300# 200# 300# 400# −4100# −5800# −6980# ∗ ∗ 880# 850# 910# ∗ ∗ −1510# 1140# 770# 980# 790# 890# −7030# −9510# −8860# −11370# ∗ 920# 910# 770# 760# ∗ 6460# 5350# 4330# 1030# 890# 840# 8800# 9800# 10600# 11320# 300# 300# 200# 400# −5430# −6840# ∗ ∗ 1020# 920# ∗ −860# −690# 1880# 940# 940# 860# −9410# −9020# −10970# ∗ 1010# 810# 920# 1020# 1060# 1070# 930# ∗ 6970# 5550# 4450# 3620# 1100# 1200# 860# 470# 8400# 9500# 10300# 11180# 11620 300# 300# 500# 350# 30 −5410# −6610# −7730# ∗ ∗ 1210# 1080# 970# ∗ ∗ 570# 500# 2870# 1270# 920# 620# −9300# −8640# −10720# ∗ ∗ 990# 1070# 1150# 1080# 910# 890# ∗ 5950# 4850# 4070# 1070# 930# 810# 9100# 10000# 10720# 11380# 300# 200# 300# 200# −6330# −7310# ∗ ∗ 1050# 860# ∗ −1120# 1270# 780# 990# 1090# 1100# −8850# −10910# −10250# ∗ 1280# 920# 650# 540 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S(n) Q(4β − ) Q(p,α ) Q(n,α ) Elt. Z 279 Mt Ea Eb Ec 109 110 111 112 6790# 5840# 7270# 5990# 1100# 1010# 920# 730# ∗ 3520# 1700# 2690# 1120# 950# 800# ∗ ∗ ∗ ∗ 16630# 16710# 17070# 17260# 1020# 1150# 1170# 790# 13230# 12040# 13650# 12370# 1090# 1010# 900# 800# ∗ 16500# 16180# 18230# 1110# 950# 780# 280 Ea Eb Ec 110 111 112 7200# 6200# 7610# 1130# 1000# 810# 3930# 2060# 3030# 1110# 1050# 920# ∗ ∗ ∗ 15350# 18170# 15770# 1190# 1010# 900# 11730# 13090# 11870# 1220# 1220# 890# 14920# 16870# 16260# 1120# 1150# 1160# 281 Ea Eb Ec 110 111 112 5960# 7230# 5980# 1120# 1190# 1180# ∗ 2090# 2810# 1260# 1230# ∗ ∗ ∗ 16180# 16780# 17060# 1020# 1190# 1190# 11620# 13160# 12020# 1110# 1150# 1170# ∗ 15480# 17590# 1250# 1200# 282 Eb Ec 111 112 6100# 7630# 1290# 1210# 2240# 3200# 1150# 1170# ∗ ∗ 17870# 15640# 1230# 1030# 12900# 11660# 1160# 970# 16170# 15800# 1140# 1030# 283 Eb Ec Ed 111 112 113 7210# 6180# ∗ 1180# 1040# ∗ 3280# 1060# 1170# 1020# ∗ ∗ ∗ 16630# 16690# 17390# 1070# 1210# 1230# 12890# 11680# 13630# 1150# 1070# 970# ∗ 16820# 16800# 1140# 1040# 284 Ec Ed 112 113 7520# 6550# 1150# 1080# 3590# 1430# 1150# 1110# ∗ ∗ 15270# 18460# 1230# 1070# 11400# 13060# 1260# 1270# 15260# 17480# 1120# 1230# 285 Ec Ed Ee 112 113 114 6470# 7460# ∗ 1120# 1260# ∗ 1380# 2060# 1300# 1300# ∗ ∗ ∗ 16010# 17180# 17460# 1070# 1250# 1260# 11030# 13220# ∗ 1150# 1210# ∗ 16120# 18630# 1320# 1250# 286 Ed Ee 113 114 6440# 7930# 1360# 1290# 1350# 2520# 1190# 1250# ∗ ∗ 18250# 16090# 1270# 1110# 12960# 11760# 1210# 1060# 16890# 16880# 1220# 1090# 287 Ed Ee Ef 113 114 115 7550# 6450# ∗ 1260# 1090# ∗ 2520# 460# 1210# 1100# ∗ ∗ ∗ 17180# 17110# 17690# 1110# 1250# 1300# 12930# 11870# ∗ 1190# 1110# ∗ 17960# 17850# 1150# 1120# 288 Ee Ef 114 115 7990# 6850# 1150# 1160# 2960# 870# 1190# 1150# ∗ ∗ 15560# 18760# 1270# 1150# 11340# 13060# 1300# 1340# 16440# 18460# 1120# 1300# 289 Ee Ef Eg 114 115 116 6590# 7860# ∗ 1120# 1330# ∗ 740# 1360# 1330# 1380# ∗ ∗ ∗ 16520# 17340# 17860# 1110# 1280# 1340# 11200# 13120# ∗ 1190# 1280# ∗ 17040# 19630# 1390# 1330# 290 Ef Eg 115 116 6740# 8330# 1420# 1380# 900# 1820# 1230# 1330# ∗ ∗ 18590# 16390# 1300# 1200# 12820# 11760# 1250# 1150# 17850# 17750# 1290# 1140# 291 Ef Eg Eh 115 116 117 7850# 6750# ∗ 1320# 1200# ∗ 1820# −140# 1300# 1220# ∗ ∗ ∗ 17330# 17510# 17890# 1150# 1330# 1400# 12960# 11870# ∗ 1230# 1200# ∗ 18990# 18750# 1200# 1230# 292 Eg Eh 116 117 8280# 7150# 1200# 1290# 2260# 270# 1230# 1270# ∗ ∗ 15970# 19060# 1300# 1270# 11450# 12960# 1330# 1440# 17300# 19460# 1120# 1390# 293 Ei 118 660# 1520# ∗ 18260# 1490# 20630# 1470# ∗ S(p) Q(d,α ) A ∗ G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Q(2β − ) Q(ε p) Elt. Z 279 Mt Ea Eb Ec 109 110 111 112 12630# 13150# 13400# 13720# 1140# 1220# 910# 510# ∗ 6180# 5220# 4430# 1040# 1100# 1080# 8700# 9600# 10450# 10960# 300# 200# 300# 200# −5850# −7160# ∗ ∗ 980# 890# Ea Eb Ec 110 111 112 13050# 13470# 13600# 1090# 980# 830# ∗ 5580# 4730# 9300# 9980# 10620# 200# 300# 200# −6750# ∗ ∗ 1060# 1120# 930# Ea Eb Ec 110 111 112 13160# 13440# 13590# 1040# 1140# 1100# ∗ 6030# 4870# 8960 9640# 10280# 50 300# 200# −6730# ∗ ∗ 1230# 1180# 1230# Eb Ec 111 112 13340# 13600# 1160# 950# ∗ 5290# 1100# 9380# 9960# 300# 200# Eb Ec Ed 111 112 113 13310# 13810# ∗ 1210# 1250# ∗ 5510# 4260# 1060# 1180# 8960# 9620# 10600# 300# 200# 300# Ec Ed 112 113 13700# ∗ 1110# ∗ 4710# 1200# 9300 10250# 50 300# Ec Ed Ee 112 113 114 13990# 14020# ∗ 1060# 1220# ∗ 4970# 3490# 1250# 1290# 8790 10020# 11000# 50 300# 300# Ed Ee 113 114 13910# ∗ 1230# ∗ 3890# 1150# 9680# 10700# 300# 300# Ed Ee Ef 113 114 115 13990# 14370# ∗ 1290# 1290# ∗ 3870# 2980# 1060# 1260# 9340# 10440 11300# 300# 50 300# Ee Ef 114 115 14440# ∗ 1150# ∗ 3390# 1270# 9970 11000# 50 300# Ee Ef Eg 114 115 116 14580# 14720# ∗ 1060# 1290# ∗ 3710# 2220# 1320# 1330# 9850 10600# 11700# 50 300# 350# Ef Eg 115 116 14610# ∗ 1300# ∗ 2560# 1200# 10300# 11300# 300# 350# Ef Eg Eh 115 116 117 14590# 15070# ∗ 1350# 1380# ∗ 2720# 1680# 1120# 1350# 10000# 11000# 11900# 300# 350# 400# Eg Eh 116 117 15030# ∗ 1200# ∗ 2090# 1360# 10710 11600# 50 400# Ei 118 920# 1470# 12300# 500# 281 282 283 284 285 286 287 288 289 290 291 292 293 ∗ S(2p) Q(α ) A 280 S(2n) 541 1070# 840# −8330# −10630# −9790# ∗ 990# 980# 850# 1030# 980# −10560# −10000# ∗ 1080# 890# ∗ ∗ 1550# 1040# 1130# 1300# −10320# −9620# ∗ ∗ −110# −9750# ∗ 1330# 1020# ∗ ∗ 1060# 1050# 1150# −9330# ∗ ∗ ∗ 1710# −11860# ∗ 1120# 1120# ∗ ∗ 3250# 1080# 1340# −11770# ∗ ∗ ∗ 1790# −11070# ∗ 1390# 1060# ∗ ∗ 2680# 1130# 1220# −10690# ∗ ∗ ∗ 3370# −13190# ∗ 1160# 1190# ∗ ∗ 4980# 1130# 1380# −12930# ∗ ∗ ∗ 3250# −12470# ∗ 1470# 1120# ∗ ∗ 4280# 1220# 1320# −11990# ∗ ∗ ∗ ∗ ∗ 4970# −14390# ∗ 1230# 1290# ∗ 6580# 1470# ∗ ∗ −7490# ∗ ∗ 1070# ∗ ∗ −8940# ∗ ∗ 1260# ∗ ∗ −9450# ∗ ∗ 1150# ∗ ∗ −10790# ∗ ∗ 1310# ∗ ∗ −11350# ∗ ∗ 1250# ∗ ∗ −160# 2100# ∗ 420# 330# Q(β − n) ∗ 542 Figs. Figs. Figs. Figs. G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S2n S2p Qα Qβ β two-neutron separation energies. two-proton separation energies. α -decay energies. double β -decay energies. Graphs of separation and decay energies 1– 9. 10–17. 18–26. 27–36. Mass numbers and element symbol are indicated only along the borders of the graphs; those for the intermediate points must be derived by enumeration. Points represent experimental values. Open circles represent values estimated from systematic trends. Lines connect points for isotopes (S2n , Qα , Qβ β ) or isotones (S2p , Qβ β ). Other types of graphs are available from the AMDC web-site (see text). Fig. 1. Two-neutron separation energies N = 0 5 10 14 40 Be 8 B S2n (MeV) 25 21 F 12 N 10 C 18 Ne Mg 20 5 Li 28 24 Si 26P 23 Al S 30 Cl 32 Ar 50 34 K 47 36 Ca Fe 49 38 Sc Na 44 40 Ti 42 V Cr 46 40 Ni Co Mn 53 Ni Co 51 Fe 35 52 30 50 30 Mn 49 Cr 25 25 48 V 47 Ti 5 He 20 46 Sc Ca 44 K 43 Ar 42 Cl 41 S 20 45 15 10 3 40 H P 39 Si 38 Al 5 15 10 5 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 35 20 O 16 7 15 0 to 25 37 Mg 0 19 7 H 10 He 12 22 B Li 16 31 C F 25 Be N 28 34 36 Ne Na 0 O -5 -5 0 5 10 15 20 543 Neutron number N 25 544 Fig. 2. Two-neutron separation energies N = 22 to 45 20 40 25 30 35 40 45 40 50 Ni 49 Co Fe 48 35 54 Cu 56 Zn 58 Ga 60 Ge 62 As 35 47 S2n (MeV) 46 Cr V 44 Ti 71 45 30 25 67 Se 69 Br 73 Kr 75 Rb Sr 78 Y 80 Zr 30 83 85 Nb Mo 87 Mo Nb 85 Zr 83 Sr 82 Rb 80 Br 43 Sc 42 Ca 20 41 K 40 Ar 15 38 S 37 P Si 35 Al 34 Mg 36 67 65 Na 53 Ne 46 42 0 34 Ne 20 63 57 33 32 As Ge 76 Ga 74 Cu 73 Ni 72 Co 71 Fe 77 Cl 5 20 78 39 10 25 86 25 37 40 Na Mg Al 44 30 Si P 51 49 S Cl 55 Ar K Ca 60 Sc Ti V 69 Cr Mn 15 10 5 0 35 40 Neutron number N 45 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Mn Fig. 3. Two-neutron separation energies N = 42 to 65 40 45 50 97 95 30 S2n (MeV) 83 Nb 85Mo 87 Ru 91 Tc 93 Rh 60 99 In 30 Ag 101 Pd Sn 82 Zr 25 65 81 Y 80 105 107 Sb Te 110 112 I Xe 114 116 Cs 119 Ba La 121 Ce Sr Rb 78 Kr 77 Br 76 Se 75 As Ce 122 La 121 Ba 120 Cs 119 Xe 118 I 117 Te 74 115 Sn 113 Cd 111 Pd 109 Ru Mo 79 20 Ge 73 Ga 72 Zn 15 25 123 71 Cu 70 Ni 69 Co 107 Fe 67 Mn Nb Zr 104 Y 103 Sr 102 100 Rb Kr 105 72 69 Mn Fe 75 Co 78 Ni 80 Cu 97 83 Zn 86 5 Ga 94 89 Ge 40 15 106 68 10 20 45 50 55 92 As Se 60 5 65 545 Neutron number N Br 10 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 89 Cd 55 546 Fig. 4. Two-neutron separation energies N = 62 to 85 60 25 65 119 La 118 121 Ce 123 Pr 126 70 128 130 Nd Pm Sm 75 132 Eu Ba 136 Gd 140 Tb 142 Dy 145 Ho 150 147 Er Tm 85 152 Yb Lu 25 155 Cs Xe 115 I 114 Te Hf S2n (MeV) 116 157 Hf Lu 155 Yb 154 Tm 113 20 156 Sb 112 Sn 111 In 110 Cd 109 Ag 108 Pd 107 Rh 106 Ru 105 Tc 104 Mo 103 Nb 102 Zr 101 Y 100 Sr 15 10 99 Ho 150 Tb 148 Eu 147 Sm 146 Pm Pr 143 Ce 142 La 141 Ba 140 Cs 139 Xe 138 I 137 Te 136 Sb 135 Sn 134 In 15 144 122 Rb 115 110 102 Rb 105 Sr 108 Zr 113 118 Mo Rh 124 Pd 120 Tc Ru Nb 130 Y 5 Ag 132 60 152 20 65 70 75 80 Neutron number N Cd 85 10 5 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 117 138 80 Fig. 5. Two-neutron separation energies N = 82 to 105 80 25 85 95 100 105 25 153 20 15 135 Hf 157 Ta 160 W 162 164 Re Os 166 168 Ir Pt 171 173 Au Hg 178 180 Tl Pb 186 Bi 188 132 Sb Sn 131 In Cd 10 157 153 144 142 139 132 5 80 Bi Pb 185 Hg 184 Au 183 Pt 181 Os 180 Re 179 178W Ta 177 Hf 176 Lu 175 Yb 174 Tm 173 Er 172 Ho 171 Dy 170 Tb 169 167 Gd 165 161 Eu 163 Nd Pm Sm 20 187 I 133 130 155 Cd 85 135 In 137 Sb Te 147 I 151 Xe Cs Ba 155 La 159 Ce Pr Sn 15 10 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Lu Yb 151 Tm 150 Er 149 Ho 147 Tb 146 Gd 145 Eu 144 Sm 143 Pm 142 Nd 141 Pr 140 Ce 139 La 138 Ba 137 Cs 152 S2n (MeV) 90 5 90 95 100 547 Neutron number N 105 548 Fig. 6. Two-neutron separation energies N = 102 to 125 100 105 110 115 120 125 22 22 184 186 Bi 190 Tl 182 Hg 181 Au 180 Pt 179 Ir 18 178 Po 197 195 At 20 Rn 201 Fr 204 Ra 208 Ac 211 Th 214 Pa 216 Os Re 177 176 175 16 W Ta Ra 212 Fr 211 Rn 210 At 209 Po 208 174 173 172 171 14 Hf Lu Yb Bi Pb 206 Tl 169 12 Dy 199 194 167 166 Re Tb 192 Gd 165 10 14 Er Ho 168 16 207 Tm 170 18 Pa 215 Th 214 Ac 213 190 181 Eu 177 173 167 169 Eu 171 Gd Tb Dy 175 Er 179 Tm Yb 184 188 Lu 196 Os Ir 205 Hg 204 Au 202 Pt 12 W Ta Hf 10 Ho 8 8 100 105 110 115 120 Neutron number N 125 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S2n (MeV) Pb 183 20 Fig. 7. Two-neutron separation energies N = 122 to 145 120 125 130 135 140 145 20 20 214 212 Th 211 Pa 18 Ac 210 Ra 209 Fr 208 Rn 207 At 206 Po 205 Bi 204 16 219 237 U Pb 227 230 Np 233 Pu 235 Am Cm Bk 239 Cf 242 16 244 Es Fm 203 Tl 245 244Fm Es 243 202 14 Cf Bk 241 Cm Hg 201 242 Au 200 Pt 240 239 12 202 238 Pt 205 237 Au 236 14 Am Pu Np U 12 Pa 235 Th Ac 233 Ra 232 Fr 234 10 223 220 212 8 210 120 125 Tl 215 218 Pb 228 Rn At Po Bi 8 Hg 130 10 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S2n (MeV) 18 135 140 549 Neutron number N 145 550 Fig. 8. Two-neutron separation energies N = 142 to 165 140 145 150 155 160 165 17 17 257 16 244 240 S2n (MeV) 242 Es Fm 247 16 Db Rf Md 250 253 No 262 Lr 260 239 15 238 Bk Cm 237 Sg 269 Bh 267 265 Ea Mt 15 Hs 274 Am Eb 14 14 236 235 13 Pu Np 234 233 12 U 276 Eb 275 Ea 274 Mt 273 Pa Hs Bh 271 Sg 272 232 Th 264 231 262 Ac 11 230 260 Ra 229 10 13 Md Fm 258 Fr 238 236 232 9 234 Fr 240 Th 242 Pa 244 U 256 Np 254 247 Pu 249 Am 252 Bk Cf No 266 Lr 270 Db 12 11 268 Rf Es 10 Cm Ac Ra 9 8 8 140 145 150 155 160 Neutron number N 165 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Cf 255 Fig. 9. Two-neutron separation energies N = 155 to 178 155 160 165 170 175 16 16 269 262 Bh 267 15 265 S2n (MeV) 260 291 Mt Hs 289 Sg 287 274 Eb Db 285 14 259 258 13 257 279 Rf 256 Lr Ed Eg Ee 291 Ef Ec Ed 15 14 283 281 Ea Eb 13 No 279 Hs Mt Md 12 Fm 254 Es 273 264 262 253 Cf 260 Fm 252 Bk 251 289 287 255 11 285 292 Ef Ee Ec 277 12 Eg No 266 Sg Bh 270 Db Lr 268 11 Rf 258 256 Cm 10 Md 275 254 252 Es Cf Bk G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 261 Ea 10 Cm 9 9 155 160 165 170 175 551 Neutron number N 0 5 10 50 21 18 C 20 17 S2p (MeV) 8 Li 7 Li 12 23 N 15 39 O 27 O 26 F F 30 0 to 20 33 Na Ne 36 Mg 38 Al Al 20 50 42 Si 46 S 44 P 48 Cl 51 Ar 29 Ne 40 Be 11 Be 53 Ca Ca 50 Ca 48 Ca 47 Ca 46 Ca 45 Ca 44 Ca 43 Ca 42 Ca 41 Ca 40 Ca 52 30 20 6 Li 5 Li 39 10 Ca 3 He 30 20 10 38 Ca 37 Ca Ca 35 34Ca Ca 36 0 8 6 3 10 C N 12 14 O F 22 16 Ne 24 Si 19 Mg P 26 S 28 Cl 30 Ar 32 K 0 B Li -10 -10 0 5 10 15 Proton number Z 20 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 B Li 24 C 16 C 14 9 40 N 552 Fig. 10. Two-proton separation energies Z = Fig. 11. Two-proton separation energies Z = 17 to 35 15 20 48 Cl Cl 46 Cl 51 25 30 35 Ar 47 40 53 K 45 55 Cl 40 Ca S2p (MeV) Cl Sc 43 62 59 Cl 42 Cl 30 Cr V 67 Mn 69 Fe Ti 74 71 Co Ni 77 Cu 80 Zn 82 Ga 85 Ge 84 87 Ge 41 As 30 Cl 40 Cl 39 Cl 38 Cl 89 Br 88 Br Br 84 Br 86 37 Cl Cl 36 20 82 Br 35 Cl 80 Cl 78 Br Br 76 Br 34 33 Cl 74 Br 10 32 Br 70 Br 31 Cl 30 Cl 69 Br 29 Cl 63 30 15 10 72 Cl 0 20 Ar 32 34 K 20 Ca 36 Sc 38 Ti 40 V 42 Cr 45 25 Fe 50 Ni 49 Ni 48 Ni 52 Cu 54 Zn 56 Ga As 62 61As 58 Ge 30 68 65 Se Br Br 67 0 As As 35 553 Proton number Z 60 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 57 44 65 Cr 64 554 Fig. 12. Two-proton separation energies Z = 32 to 50 30 35 40 45 50 35 35 85 Ge S2p (MeV) 30 25 88 87 As As 91 Se 94 Br Br 96 93 Kr 99 Rb 102 Sr 101 104 Sr Y 107 Zr 110 Nb 112 Mo 115Tc 114 Tc 117 Ru 120 Rh 122 Pd 124 Ag 126 Cd 128 30 In 129 Sn 128 Sn Ge 126 Ge Ge 73 Ge 72 Ge 71 Ge 70 Ge 69 Ge 68 Ge 67 Ge 66 Ge 65 Ge 64 Ge 124 76 Ge 75 Sn Sn 120 Sn 118 Sn 116 Sn 114 Sn 74 20 15 10 122 0 Sn 110 Sn Sn 106 Sn 104 Sn 102 Sn 100 Sn Ge 79 Zr 62 Ge 61 Ge 112 108 63 5 63 62 As 65 Se 67 As Br 69 Kr 71 Rb 74 Sr 73 Sr 76 78 Zr Y 81 Nb 83 Mo 85 Tc 87 Ru 89 Rh 91 Pd 93 Ag 95 Cd 97 In 99 Sn -5 25 Sn 20 15 10 5 0 -5 30 35 40 45 Proton number Z 50 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 84 Ge 83 Ge 82 81Ge Ge 80 Ge 79 Ge 78 Ge 77 Fig. 13. Two-proton separation energies Z = 47 to 65 45 50 60 65 134 132 Sn In In 124 129 Ag 126 In 123 Cd 128 Ag In 122 Ag 121 Ag 120 Ag 118 Ag 130 30 25 116 30 137 Sb 153 139 Te 141 I 144 149 Xe 146 Ba Cs 148Ba La 152 La 151 La 155 Ce 157 Pr 159 Nd 161 Pm 25 163 Sm 165 114 Ag Ag 110 Ag 108 Ag 106 Ag 20 167 Tb Tb 164 Tb 162 Tb 112 15 10 104 Ag 102 Ag 100 Ag 98 Ag 95 160 Ag Ag 100 In Sn 99 Sn 106 Te Te 105 45 Tb Tb 156 Tb 154 Tb 152 Tb 150 Tb 148 Tb 146 Tb 144 Tb 142 Tb 140 Tb 138 115 Tb 117 131 Ba La 119Ce 121Pr 124Nd 126 Eu 134 136 112 114 110 Pm 128Sm 130 Tb Gd Cs Ba Xe Eu 15 158 97 0 20 166 97 Ag 96 5 Eu Ag 50 108 I 55 60 5 0 65 555 Proton number Z 10 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 S2p (MeV) 55 556 Fig. 14. Two-proton separation energies Z = 62 to 80 60 65 70 75 80 25 25 163 Sm 162 Sm 161 Sm 160 165 Eu 167 Gd 169 Tb 171 Sm S2p (MeV) 173 Ho 175 Er 158 Sm 156 Sm 154 15 Sm 150 Sm 148 Sm 144 10 142 20 Tm 179 Yb 181 Lu 190 183 Sm 152 146 177 Hf 186 189 Ta W W 192 Re 194 Os 196 Ir 201 198 Pt Hg 196 Hg 194 Hg 192 Hg 190 Hg 188 Hg Sm Sm Sm 138 Sm Sm Sm 133 Sm 132 Sm 186 Hg Hg 182 Hg 180 Hg 178 Hg 176 Hg 174 Hg 167 172 Pt 169 Hg 166 Au 171 Pt Hg 184 134 60 198 Sm 140 15 Hg 134 0 Au Au 202 Hg 201 Hg 200 136 5 200 Gd 136 65 Tb 138 141 Dy 140 Ho 143 Er Ho 145 Tm 148 70 Yb 150 Lu 153 Hf 156 Ta 155 Ta 158 W 160 Re 162 Os 164 Ir 75 Proton number Z 80 10 5 0 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 20 Dy Fig. 15. Two-proton separation energies Z = 77 to 95 75 80 201 196 S2p (MeV) 15 204 207 234 230 Ra 233Ac 236Th 229 Ac 238 Ra 228 214 225 Ra Bi 227 222 Fr Ra 220 Rn 217 At Po 192 Ir 191 Ir 190 95 212 Tl 211 Pb Pb 206 Tl Hg 90 Pa 240 U 242 15 Np 244 Pu Ir 245 Am 244 189 Ir 188 Ir Ir 186 Ir 184 Ir 242 182 180 178 Ir 187 10 240 Am 238 Am Ir 236 Ir 234 Am Am 226 176 5 Ir 174 Ir 172 Ir 170 Ir 168 Ir 167 Ir 0 169 75 Am Am 172 Au 171Hg Hg 80 176 Tl Np 222 225 Np 221U U 220 U 219 U 215 217 Pa U 213 Pa 203 191 212 206 209 Ra 199 Po 193At Pa Ac Th Fr 202Ra 195 189 Rn Po 186 188 Bi 184 Po 179 Bi Pb 178 Pb 85 90 Pu 232 231Am Am 5 0 95 557 Proton number Z 228 10 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Au Ir 198 195 Pt 200Au Ir 194 Ir 193 Ir 85 558 Fig. 16. Two-proton separation energies Z = 92 to 110 90 95 100 105 110 16 16 240 239 14 237 U U U 242 Np 244 Am 249 U 234 U 233 U 12 232 231 10 Cm 251 Bk 254 Cf 256 Es 12 258 Fm 260 Md U U 262 No 264 230 U 229 U 8 228 U 227 U 226 U 225 U U 224 6 Lr 266 10 Rf 268 Db 270 Sg 272 Bh 8 274 Hs 229 Pu 231 226 228 Am233 Np Pu 225 Cm Np 4 6 235 238 Bk Cf Cf 237 240 Es 242 Fm 245 Md 248 No 251 Lr 253 Rf 258 Sg 261Bh 260 2 Bh Ea 274 Ea 273 Ea 272 Ea 271 256 Db 255 Db 276 263 270 Hs 265 Mt 269 Ea Ea Ea Ea 267 Ea 268 0 4 2 0 90 95 100 105 Proton number Z 110 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 246 236 U 235 S2p (MeV) 14 Pu Fig. 17. Two-proton separation energies Z = 100 to 118 100 105 110 115 12 12 258 S2p (MeV) 10 260 Md 262 No 264 10 Lr 266 Rf 268 Db 270 8 251 Fm 250 Fm Sg 272 Bh 275 8 Hs 277 249 Fm Fm 247 Fm Mt 248 6 246 245 244 279 Ea 281 Fm Eb 283 6 Ec Fm Fm 285 279 4 245 Md 248 No 251 278 Lr 253 Rf 256 Db258 Db Sg 255 274 261 Bh 260 Bh 263 Hs Mt Eb Eb Ea 272 Eb 269 Ea 268 Ea 270 265 2 273 277 267 Ed Ec 283 287Ee Ec Ed Ec 285 289 4 Ef Ee 291 287 Eg Ef 289 2 Eg 291 Ea Eh 293 0 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Fm Fm 256 Fm 255 Fm 254 Fm 253 Fm 252 Fm 257 Ei 0 100 105 110 115 559 Proton number Z 0 5 560 Fig. 18. α-decay energies N = 0 to 25 10 15 20 25 5 Li 5 4 He He 0 0 7 Qα (MeV) 7 B -5 12 O V 38 54 Cr Zn -5 55 Ti 10 N 28 14 F 20 -10 16 9 42 40 Ne Mg 11 Li 22 Ar 46 32 K 26 54 Fe Cu 50 Mn 49 36 Al S Sc Cr 25 45 Ca 44 K 43 P 14 C 30 Cl Zn 23 Si Be -10 Ar Cl 42 -15 41 S P 39 Si 16 -15 40 B 29 -20 26 F 32 Ne 35 Na 38 Al 37 O Mg -20 20 C 23 N -25 -25 0 5 10 15 20 Neutron number N 25 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Be Fig. 19. α-decay energies 20 25 N = 22 to 45 30 35 40 45 0 0 65 67 Se Br 69 Kr 71 73 Rb Sr 83 43 44 Sc Ti -5 45 V 42 Ca 50 Ni 39 Cl 58 56 54 Ga Ge Nb Mo 87 Mo 86 60 As Nb 84 Y 82 Zn 52 Cu Rb -5 80 Br 79 Se As 78 77 Ge Ga 75 Zn 38 S 76 -10 -10 61 Ti 37 P 59 36 74 72 Si 64 Ca Al 34 Fe 55 Mg 73 Ni 71 V 57 35 -15 Cu Co Sc 67 K 33 Cr -15 69 Mn Na 35 Na -20 44 38 Si Mg 41 20 25 53 46 P 50 48 Al 30 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Qα (MeV) 81 -20 Ar Cl S 35 40 561 Neutron number N 45 40 45 N = 42 to 65 50 55 5 105 103 562 Fig. 20. α-decay energies Te 60 65 5 108 I 110Xe 112Cs 114 Ba 117 La Sb 119 Ce 121Pr 124 Nd 125 Qα (MeV) 117 0 87 Ru 89 Rh 91 93 Pd Ag 95 Cd 85 83 Tc 97 116 In 99 Nb Sb Sn Cd 111 Pd 110 Rh 109 Ru 108 Tc 107 Mo 106 Nb 113 As 74 73 Ge Ga Zn 72 71 90 Cu -10 0 115 Rb 77 Br 75 Te Sn 81 79 Y -5 Nd Ce As 84 82 69 Co Ga 87 Zn 105 93 Zr Sr 104 Y Se 96 Br Ge 103 98 Kr -5 -10 101 70 68 Ni Rb Fe 73 71 -15 Fe 40 45 Co 76 Ni -15 79 Cu 50 55 60 Neutron number N 65 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 123 Fig. 21. α-decay energies 60 65 N = 62 to 85 70 75 80 85 158 157Ta Hf 5 136 Qα (MeV) 121 Pr 116 Xe 114 Te 0 113 Sb 112 Sn 124 126 128 Nd Pm Sm 130 Eu Tb 138 140 Dy Ho 145 143 Er Tm 148 Yb 150 153 Lu Gd Hf Ta 155 Yb 153 Er 5 151 Dy 150 Tb 149 Gd Sm 145 Nd 143 Ce 141 Ba 139 Xe 137 Te 147 0 111 110 In 109Cd Ag 108 Pd Rh 106 Ru 105 104 Tc Mo 107 -5 103 136 Nb Zr Sb -5 102 135 Sn 134 101 100 In Y Sr 119 -10 114 112 104 60 65 Sr 106 Y 109 Nb Mo 117 Tc Zr 70 75 -10 Ru 122 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 134 155 Rh 124Pd 126 Ag 128 Cd 80 563 Neutron number N 85 80 85 564 Fig. 22. α-decay energies N = 82 to 105 90 95 100 105 10 10 158 W 160 Re 162 164 Os 166 Ir 169 Pt 171 Au 178 Hg 176 Tl 184 Pb 188 Bi Po 189 Po 188 Bi Pb 185 Hg 183 Pt 182 Ir 181 180Os Re 179 W 177 Hf 176 Lu 175 Yb 174 Tm 173 Er 172 Ho 171 Dy 169 Gd 5 155 Ta 154 Hf Yb 150 Er 148 Dy 147 Tb 146 Gd 144 Sm 142 Nd 140 Ce 139 138 La Ba 137 Cs 136 Xe 135 134 I Te 152 0 -5 167 141 139 133 Sb Te 143 148 I 146 Xe 165 Cs 163 151 161 Ba 159 Nd Sm Eu 5 0 Pm -5 Pr 157 Sb 155 Ce La 136 Sn -10 -10 132 80 Sn 85 90 95 100 Neutron number N 105 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Qα (MeV) 187 Fig. 23. α-decay energies 100 105 N = 102 to 125 110 115 120 125 10 10 185 8 Bi 188 Po 193 199 195 Rn Fr 209 206 Ra Ac 212 Th Pa 216 Pa Th 214 Ac 213 Ra 212 211Fr Rn Qα (MeV) 184 Pb Hg 183 Tl 181 Au 180 Pt 179 Ir 178 Os 182 6 4 210 At 209 Po Ta Hf 173 Lu 208 174 172 171 2 Tm 169 Er 185 Ho 181 168 Dy Tb 166 Gd 165 Eu 167 -2 Bi Yb 170 0 6 4 177 Re 176 W 175 2 8 215 177 175 169 167 171 Gd Tb Ho 179 Er 183 Yb Lu Hf 188 Ta 196 Tm 192 W 194 198 Os Ir 200Pt Re 203 207 Pb 206 Tl 205 Hg Au 0 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 At 202 -2 173 Dy Eu -4 -4 100 105 110 115 120 565 Neutron number N 125 120 125 566 Fig. 24. α-decay energies N = 122 to 145 130 135 140 145 10 10 225 Qα (MeV) Pa 212 Th 211 Ac 210 Ra 209 Fr 8 208 217 242 Fm U 228 240 Pu 237 231 Am 233 235 Cm Bk Cf Md 246 Es 245 206 Rn At Po 219 Po Bi Bi 232 Tl Np U 236 Pa 235 Th 234 Ac 237 Rn Fr 209 Ra 214 Pb Pb 6 238 224 227 2 Cf Bk Cm Am 239 Pu At 204 243 8 240 222 205 Es 241 216 4 244 242 207 6 Md Fm 4 2 203 Tl 202 0 Hg 201 0 Au 206 203 Hg Au -2 -2 120 125 130 135 140 Neutron number N 145 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 213 245 Np Fig. 25. α-decay energies 140 145 N = 142 to 165 150 155 160 267 165 Ea 12 12 272 265 Qα (MeV) 10 255 251 248 245 242 No 258 Rf Ea Sg 274 Mt 273 Hs 272 Bh 271 Sg 270 Db Fm 241 8 Md 253 Lr Db Bh 276 275Eb Hs Es 268 240 Rf Cf 10 8 239 Bk 238 266 237 264 Am Pu 260 236 6 235 258 Np U 251 234 248 233 232Pa 253 Cm 256 Bk 262 No Fm Md 6 Es Cf Am 246 Th Ac 230 Ra 4 Lr Cm Pu 231 244 242 232 Ra 238 Ac Th 236 240 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 263 260 Eb Mt 4 Np U Pa 2 2 140 145 150 155 160 567 Neutron number N 165 155 160 N = 157 to 178 165 170 175 14 14 13 13 267 Ea 277 272 11 266 Mt 265 Hs 264 10 Eb 289 Ec Eg Ei Eh 287 285 283 Eh Ef Ee 11 Ed 292 Eg Bh 289 263 Ee Sg 287 262 Db 261 Rf 9 279 260 259 8 7 274 Lr No 258 Md 257 Fm 256 268 266 264 Es 260 6 255 Cf 258 262 Fm 270 Rf 272 Db Sg Bh 277 12 292 281 Mt 283 Ea Eb 285 Ed 291 Ef 10 9 Ec Hs 8 Lr 7 No Md 6 Es 256 Cf 5 5 4 4 155 160 165 170 175 Neutron number N G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 293 291 12 Qα (MeV) 568 Fig. 26. α-decay energies Fig. 27. Double β-decay energies 0 5 10 15 A = 0 to 35 20 25 30 35 50 34 35 Li 12 e H 10 40 35 M g 7 H 30 35 Al 30 20 35 Si 20 10 35 P 10 0 S 35 0 -10 35 Cl -10 -20 Ar -20 35 Qββ (MeV) 40 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Na 28 O 31 F 25 C 22 B 19 16 Ne 50 N 60 Be 60 -30 -30 -40 -40 0 5 10 15 20 25 35 569 Mass number A 30 30 35 40 45 A = 32 to 65 50 55 60 65 50 M Si S 49 46 P 44 42 Al 40 37 34 g 50 Na 60 Ne 60 40 65 V 63 30 10 65 Fe M 20 Co n 65 Cr 57 Ca 30 60 55 K Sc Ti 53 Ar 51 Cl 40 65 20 65 Ni 65 10 0 65 Zn 65 Cu 0 -10 65 G a -10 65 G e -20 -30 -20 -30 -40 -40 30 35 40 45 50 55 Mass number A 60 65 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Qββ (MeV) 570 Fig. 28. Double β-decay energies Fig. 29. Double β-decay energies 60 65 70 75 A = 62 to 95 80 85 90 95 40 65 V 40 Se As 92 e G 89 a 86 G Zn 83 Cu 95 95 Kr Br 80 Ni 94 95 Sr 95 Rb 20 10 95 95 N Z o b r 95 Y 10 0 95 95 Tc M 0 -10 95 Rh 95 Ru -10 Pd -20 -20 95 Qββ (MeV) 20 -30 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 78 75 Co 72 69 M n 67 Fe 30 Cr 30 -30 -40 -40 60 65 70 75 80 85 95 571 Mass number A 90 90 95 100 105 572 Fig. 30. Double β-decay energies A = 92 to 125 110 115 120 125 30 0 12 5 12 5 12 5 In 10 Te Sb Sn 12 5 Cd 12 5 Ag 4 Pd 12 12 2 Rh 0 12 10 12 I 5 Ba Cs 12 5 Xe 12 5 12 5 0 -10 5 La 12 5 -10 12 Qββ (MeV) 20 -20 -20 -30 -30 90 95 100 105 110 115 Mass number A 120 125 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 20 Ru 8 Tc 11 11 5 M o 3 Nb 11 11 0 Zr 10 8 Y 5 Sr 10 10 2 Rb 0 Kr 10 Br 97 94 Se 92 As 30 125 130 135 140 5 5 5 15 5 -10 15 5 15 5 15 5 15 5 15 0 5 15 5 15 145 -20 150 5 5 Nd 15 5 Pr 15 5 Ce 15 La 5 15 3 Ba 20 10 0 -10 573 Mass number A 15 1 150 Pm 15 10 Cs 15 145 Yb Tm Er H D Tb G Eu Sm o y d 15 7 Xe 14 140 Lu 15 4 2 Te 14 Sb 135 9 13 7 Sn 5 2 Cd 13 130 In 13 0 Ag 13 125 13 Pd 30 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 120 4 20 12 120 I 14 Qββ (MeV) Fig. 31. Double β-decay energies A = 122 to 155 155 30 -20 155 155 165 175 180 185 o 5 H 10 4 Lu 5 0 -5 -10 18 5 H g 18 5 5 Au Pt 18 5 Ir 5 18 -10 O -5 18 s 18 5 0 Re 18 5 W 18 5 5 Ta 18 5 H f 18 18 1 Yb 9 Tm 17 17 7 Er 10 17 17 3 D y 1 Tb 17 16 9 G 7 d Eu 16 16 5 15 -15 18 5 Tl -15 -20 150 -20 155 160 165 170 175 Mass number A 180 185 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Sm 3 16 16 Pm 1 Nd 15 9 Pr 7 Ce 15 15 Qββ (MeV) 170 5 La 15 15 160 A = 152 to 185 20 3 20 Ba 150 574 Fig. 32. Double β-decay energies Fig. 33. Double β-decay energies 185 190 195 200 205 210 215 21 0 H g 180 A = 182 to 215 10 21 5 Pb 2 5 20 5 -5 -10 21 21 21 21 21 5 -10 Ac 5 21 -5 Ra 5 Fr 5 21 0 Rn 5 0 At 5 Po 5 Bi 2 Pt 20 9 Ir 19 19 6 O s 4 Re 19 Au 2 21 W 5 -15 -15 -20 -20 180 185 190 195 200 205 215 575 Mass number A 210 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Qββ (MeV) Tl 0 Ta 19 19 18 4 Lu 18 8 H f 10 210 215 220 225 576 Fig. 34. Double β-decay energies A = 212 to 245 230 235 240 245 10 23 3 5 24 5 Am 24 5 Pu 24 4 Np 24 2 U 24 0 Pa 8 Th 6 Ac 23 8 23 4 Ra 23 Rn 22 At 22 0 Po 21 8 Bi 22 5 0 24 5 Bk 24 5 Cm 0 -5 24 5 Es 24 5 Cf -5 -10 -10 -15 -15 210 215 220 225 230 235 Mass number A 240 245 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 Qββ (MeV) 21 5 Pb 21 2 Tl 2 Fr 10 Fig. 35. Double β-decay energies 240 245 250 255 A = 242 to 275 260 265 270 275 6 4 Cf 2 26 0 Fm 25 8 Es 6 25 0 26 8 Rf 6 Lr 26 26 4 No 2 M d 0 26 -2 27 5 Bh 27 3 Sg 0 D b -2 27 -4 27 5 H s -4 -6 5 M t -6 27 Qββ (MeV) 2 -8 -8 -10 -10 -12 240 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 25 4 Bk 2 Cm 25 24 9 Am 7 Pu 24 4 Np 24 4 24 2 U 6 -12 245 250 255 260 265 275 577 Mass number A 270 255 260 265 270 578 Fig. 36. Double β-decay energies A = 257 to 290 275 280 285 290 2 26 0 Fm 25 8 Es 2 0 26 8 Rf 6 Lr 26 4 26 b -2 27 5 Bh 27 3 Sg 0 D 27 -4 -6 28 3 Eb 28 1 -6 Ea 27 9 M t 7 H s -4 27 -8 -10 28 9 -10 Ee 28 7 Ed 5 Ec -8 28 Qββ (MeV) -2 -12 -12 -14 255 -14 260 265 270 275 280 Mass number A 285 290 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 No 26 2 M d 0 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 579 References used in the AME2003 and the NUBASE2003 evaluations REGULAR JOURNALS (CODEN identifiers) AND BOOKS AAFPA ADNDA AENGA AFYSA ANPHA APAHA APASA APOBB APPOA ARISE 1950-70 1970-. . . . . . -1969 1986-92 ARISE 1993-. . . ATKEA ATKOA AUJPA BAPMA BAPSA BRSPE CHDBA 1966-. . . CJCHA CJPHA CODBA COREA . . . -1965 CPHMA CUSCA CZYPA DANKA EPJAA EPJDD EULEE FECLA FZKAA GCACA HPACA HYIND IANFA IEIMA IJARA 1998-. . . 1998-. . . 1986-. . . 1956-85 Annales Academiae Scientiarum Fennicae, series A VI (Finland) Atomic Data and Nuclear Data Tables (Elsevier, USA) Atomnaya Energiya (Russia) Arkiv för Fysik (Sweden) Annales de Physique (France) Acta Physica Academiae Scientiarium Hungaricae Acta Physica Austriaca Acta Physica Polonica Section B Acta Physica Polonica International Journal of Radiation Applications and Instrumentation - Part A - Applied Radiation and Isotopes (Great Britain) Applied Radiation and Isotopes (Elsevier) Atomkernenergie (Germany) Atomki Kozlemenyek (Hungary) Australian Journal Physics Bulletin de l’Académie Polonaise des Sciences, Série des Sciences Mathématiques, Astronomiques et Physiques Bulletin of the American Physical Society Bulletin of the Russian Academy of Sciences, Physics Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences, serie B (France) Canadian Journal of Chemistry Canadian Journal of Physics CODATA Bulletin (Committee on Data for Science and Technology - ICSU) Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences (France) Commentationes Physico-Mathematicae : Societas Scientiarum Fennicae (Finland) Current Science (India) Czechoslovak Journal of Physics (Kluwer, london) Doklady Akademii Nauk SSSR European Physical Journal A (replaces ZPAAD) European Physical Journal D Europhysics Letters (replaces JPSLB and NCLTA) Particles and Nuclei, Letters (Russia) Fizika (Croatia) Geochimica et Cosmochimica Acta (Elsevier, USA) Helvetica Physica Acta Hyperfine Interactions Izvestiya Akademii Nauk SSSR, seriya Fizicheskaya IEEE Transactions on Instrumentation and Measurement (USA) International Journal of Applied Radiation and Isotopes (Great Britain) 580 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 IJMPD IJOPA IJPYA IMPAE JCOMA JINCA JMOPE JNCEA JOPQA JOPQS JPAGB JPCRB JPGPE JPHGB JPSLB JUPSA KDVSA KERNA KURAA MPLAE MTRGA NATUA NCIAA NDSAA NDSBA NIMAE NIMBE NPBSE NSENA NUCIA NUIMA NUPAB NUPBB NUPHA PACHA PENUC PHFEA PHLTA PHMAA PHMAA PHRVA PHSTB PHYSA . . . -1991 . . . -1981 1961-98 1989-. . . . . . -1988 . . . -1985 1970-. . . 1983-. . . 1983-. . . . . . -1969 . . . -1983 1967-. . . 1967-. . . 1957-66 . . . -1967 . . . -1955 1956-. . . 1930-69 1970-. . . International Journal of Mass Spectrometry and Ion Processes (Elsevier) Indian Journal of Pure and Applied Physics Indian Journal of Physics and Proceedings of the Indian Association for the Cultivation of Science International Journal of Modern Physics A (World Scientific Publishing, Singapore) Journal of the Less Common Metals (Switzerland) Journal of Inorganic and Nuclear Chemistry (USA) Journal of Modern Optics (Great Britain) Journal of Nuclear Energy A and B (Great Britain) Journal de Physique (France) Journal de Physique (France) Suppl. Colloques Journal of Physics, A (Great Britain) Journal of Physical and Chemical Reference Data (USA) Journal of Physics, G Nuclear Physics (Great Britain) Journal of Physics, G Nuclear Physics (Great Britain) Journal de Physique Lettres (France) Journal of the Physical Society of Japan Det Kongelige Danske Videnskabernes Selskab, Matematisk-Fysiske Meddelelser Kernenergie (Germany) Kyoto University, Research Reactor Institute : Annual Report Modern Physics Letters section A (World Scientific Publishing, Singapore) Metrologia Nature (Great Britain) Nuovo Cimento A (Italy) Nuclear Data Tables, section A (USA) Nuclear Data Sheets (USA) Nuclear Instruments and Methods in Physics Research A (Netherlands) Nuclear Instruments and Methods in Physics Research B (Netherlands) Nuclear Physics, section B (Proceedings Supplements) (Netherlands) Nuclear Science and Engineering (American Nuclear Society, USA) Nuovo Cimento (Italy) Nuclear Instruments and Methods (Netherlands) Nuclear Physics, section A (Netherlands) Nuclear Physics, section B (Netherlands) Nuclear Physics (Netherlands) Pure and Applied Chemistry Particle Emission from Nuclei, ed. by D.N. Poenaru and M.S. Ivaşcu, CRC Press (USA), 1989 Physica Fennica (Finland) Physics Letters (Netherlands) Philosophical Magazine (Great Britain) Philosophical Magazine (Great Britain) Physical Review (USA) (not 1964 and 1965) Physica Scripta (Sweden) Physica (Netherlands) G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 PISAA PLRBA PLSSA PPNPD PPSOA PRAMC PRLAA PRLTA PRVAA PRVCA PRVDA PRYCA PYLAA PYLBB PZETA RAACA RAEFB RMPHA RMXFA RPPHA RRALA SAPHD SHIBA THISc UFZHA YAFIA YTHLD ZDACE ZENAA ZEPYA ZETFA ZPAAD 581 Proceedings of the Indian Academy of Sciences, section A 1964-65 Physical Review, section B (USA) Planetary and Space Science (Netherlands) Progress in Particle and Nuclear Physics Proceedings of the Physical Society (Great Britain) Pramana, Journal of Physics (India) Proceedings of the Royal Society of London,Series A Physical Review Letters (USA) 1970-. . . Physical Review, section A (USA) 1970-. . . Physical Review, section C (USA) 1970-. . . Physical Review, section D (USA) Proceedings of the Royal Society of Canada 1968-. . . Physics Letters, section A (Netherlands) 1968-. . . Physics Letters, section B (Netherlands) Pis’ma v Zhurnal Eksperimental’noi i Teoreticheskoi Fiziki (Russie) Radiochimica Acta (Germany) Radiation Effects and Defects in Solids (Great Britain) Reviews of Modern Physics (USA) Revista Mexicana de Fı́sica Reports on Progress in Physics (Great Britain) Radiochemical and Radioanalytical Letters (Hungary) South African Journal of Physics Shitsuryo Bunseki (Mass Spectrometry, Japan) Treatise on Heavy-Ion Science, ed. by D.A. Bromley, Plenum Press, 1989 Ukrains’kii Fizicheskii Zhurnal Yadernaya Fizika (Russia) Chinese Journal of Nuclear Physics 1974-. . . Zeitschrift für Physik D (Germany) Zeitschrift für Naturforschung, part A (Germany) . . . -1974 Zeitschrift für Physik (Germany) Zhurnal Eksperimental’noi i Teoreticheskoi Fiziki (Russia) 1974-97 Zeitschrift für Physik A (Germany) 582 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 REPORTS, PREPRINTS, THESIS, ABSTRACTS, COMMUNICATIONS AAAAA to be pd PrvCom AHW Mon PrvCom GAu Mon PrvCom JBl Mon PrvCom NDG Mon PrvCom Ref Table of Isotopes Th.- City Wallet Cards AnRpt Institute ANLCERNCOODASAGSIIAEAIDOIPNO-DRE ISOLDEJINRKFKLBLLeninst YFORNLUCRL- To be published in journal AAAAA Private communication to A.H. Wapstra in given Month Private communication to G. Audi in given Month Private communication to J. Blachot in given Month Private communication to Nuclear Data Group in given Month Quoted by reference in question Table of Isotopes, LBL Brookhaven Dissertation from corresponding University Nuclear Wallet Cards, NNDC-BNL, Brookhaven, ed. J.K. Tuli Annual Report from Institute (or City) Argonne National Laboratory, report European Organization for Nuclear Research, report Reports on work done with DOE support Defense Atomic Support Agency, Washington, DC, report Gesellschaft für SchwerIonforschung, report International Atomic Energy Agency, report Idaho Operations Office of US Atomic Energy Commission, report Institut de Physique Nucléaire d’Orsay, report Isotope Separator on Line (CERN), report Joint Institute for Nuclear Research Dubna, report Kernphysik Zentrum Karlsruhe, report Lawrence Berkeley National Laboratory, report Leningradskii Institut Yadernoi Fiziki Oak Ridge National Laboratory report University of California Radiation Laboratory report CONFERENCE PROCEEDINGS AND ABSTRACTS P-Alma Ata P-Alma Ata P-Amsterdam P-Amsterdam P-Amsterdam P-Arles B-Arles P-Aulanko B-Aulanko P-BadHonnef P-Baku P-Bellaire P-Berkeley P-Bernkastel 1978 1984 1974 1982 1996 1995 1995 2001 2001 1988 1976 1998 1980 1992 Program of 28th USSR Conference on Nuclear Spectroscopy Program of 34th USSR Conference on Nuclesr Spectroscopy Proc. Intern. Conference Nuclear Structure Proc. Intern. Conference Nuclear Structure 2nd. North-West Europe Nuclear Physics Conference NWE’96 Proc. Int. Conf. on Exotic Nuclei and Atomic Masses ENAM-95 Abstracts ENAM-95 Proc. Int. Conf. on Exotic Nuclei and Atomic Masses ENAM-2001 Abstracts ENAM-2001 Proc. Int. Workshop Nucl. Struct. of the Zr Region Program of 26th USSR Conference on Nuclear Spectroscopy Proc. Int. Conf. on Exotic Nuclei and Atomic Masses ENAM-98 Proc. Intern. Conf. Nuclear Physics Berkeley Proc. 9th Int. Conf. Atomic Masses and Fundamental Constants AMCO9, and 6th Int. Conf. Nuclei far from Stability NUFAST-6 B-Bernkastel 1992 Abstracts AMCO-9 and NUFAST-6 P-Birmingham 1985 Proc. Specialists Meeting on Delayed Neutron Properties G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 P-Bombay P-Bombay P-Bormio P-Brookhaven P-Budapest P-Cargese P-Charkov P-Chicago P-Darmstadt 1974 1985 1999 1979 1972 1976 1986 1985 1984 P-Debreccen 1968 P-Dubna P-Dubna P-Dubna P-Dubna P-Florence P-Foros P-Fribourg 1961 1968 1989 1999 1983 1991 1993 P-Gatlinburg P-Grenoble P-Helsingor P-Kiev P-Knoxville 1967 1981 1981 1982 1984 P-Kyoto P-Lansing 1970 1979 P-Legnaro P-Leningrad P-Leningrad P-Leningrad P-Leuven 1971 1975 1985 1990 1987 P-Leysin P-Miami P-Minsk P-Monterey P-Moscow P-Moscow P-Moscow P-Niigata P-PacGrove P-Paris 1970 1989 1991 1990 1955 1971 1983 1991 1991 1958 583 Proc. Nucl. Phys. and Solid State Phys. Symposium Symposium on Quantum Electronics XXXVII International Winter meeting on Nuclear Physics Proc. 3rd Int. Conf. Neutron Capture Gamma Ray Spectroscopy Proc. 1st Int. Conf. Neutron Capture Gamma Ray Spectroscopy Proc. 3rd Int. Conf. Nuclei far from Stability NUFAST-3 CERN 76-13 Program of 38th USSR Conference on Nuclear Spectroscopy Proc. Meeting of the American Society for Nuclear Chemistry Proc. 7th Int. Conf. Atomic Masses and Fundamental Constants AMCO7 Proc. Conf. Electron Capture and Higher Order Processes in Nuclear Decays Repts. Third Conf. Neutron-deficient Isotopes Proc. International Symposium on Nuclear Structure Int. School-Seminar on Heavy-Ion Physics Proc.49th Ann.Conf.Nucl.Spectrosc.Struct.At.Nuclei Proc. Intern. Conf. Nuclear Physics Florence Proc. Intern. Conf. on Exotic Nuclei, South Crimea Proc. 8th Int. Symp. Capture Gamma Ray Spectroscopy and Related Topics Proc. Intern. Conf. Gatlinburg Proc. 4th Int. Conf. Neutron Capture Gamma Ray Spectroscopy Proc. 4th Int. Conf. Nuclei far from Stability NUFAST-4 CERN 81-09 Program of 32th USSR Conference on Nuclear Spectroscopy Proc. 5th Int. Symp. Capture Gamma-Ray Spectroscopy and Related Topics Conference on Mass Spectroscopy Proc. 6th Int. Conf. Atomic Masses and Fundamental Constants AMCO6 Proc. Conf. Structure of 1f7/2 Nuclei, Legnaro Program of 25th USSR Conference on Nuclear Spectroscopy Program of 35th USSR Conference on Nuclear Spectroscopy Program of 40th USSR Conference on Nuclear Spectroscopy Proc. 6th Int. Symp. Capture Gamma-Ray Spectroscopy and Related Topics Proc. 2nd Int. Conf. Nuclei far from Stability NUFAST-2 CERN 70-30 Symposium on Exotic Nuclear Spectroscopy Program of 41th USSR Conference on Nuclear Spectroscopy Proc. Xth Int. Conf. Neutron Capture Gamma Ray Spectroscopy Conf. Acad. Sci. USSR Peaceful Use of Atomic Energy Program of 21st USSR Conference on Nuclear Spectroscopy Program of 33rd USSR Conference on Nuclear Spectroscopy Proc. Int. Symp. on Structure and Reactions of Unstable Nuclei Proc. 7th Int. Symp. Capture Gamma Ray Spectroscopy Compt.Rend.Congr.Intern.Phys.Nucl., Paris, P.Gugenberger, Ed., Dunod, Paris(1959) 584 P-Paris P-Petten P-Rosseau P-Samarkand B-Seeheim P-StMalo P-StPetersbg P-Studsvik P-Swansea P-Tashkent P-Tbilis P-Teddington P-Tokai P-Vienna P-Winnipeg P-Yerevan P-Yurmala G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1975 Proc. 5th Int. Conf. Atomic Masses and Fundamental Constants AMCO5 1975 Proc. 2nd Int. Conf. Neutron Capture Gamma Ray Spectroscopy 1987 Proc. 5th Int. Conf. Nuclei far from Stability NUFAST-5 AIP Conf.Proc.164 1981 Program of 31st USSR Conference on Nuclear Spectroscopy 1999 1st Int. Conf. Chemistry and Physics of the Transactinide Elements (TAN’99) 1988 Proc. 3rd Int. Conf. Nucleus-Nucleus Collisions 1995 Low Energy Nuclear Dynamics, EPS XV Nucl. Phys. Div. 1969 Proc. Conf, Neutron Capture Gamma Ray Spectroscopy 1985 10th Int. Mass Spectrometry Conf. (in Adv. in Mass Spectr. 1985) 1977 Program of 27th USSR Conference on Nuclear Spectroscopy 1964 Program of 14th USSR Conference on Nuclear Spectroscopy 1972 Proc. 4th Int. Conf. Atomic Masses and Fundamental Constants 1994 Symposium on Nuclear Data, JAERI 1964 Proc. 2nd Intern. Conf. Nuclidic Masses 1967 Proc. 3rd Int. Conf. Atomic Masses and Fundamental Constants 1969 Program of 19th USSR Conference on Nuclear Spectroscopy 1987 Program of 37th USSR Conference on Nuclear Spectroscopy G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 LIST OF REFERENCES Before 1948 1934Le01 PRLAA 145, 235 W.B. Lewis, B.V. Bowden 1948 1948Fe09 1948Ma29 1948Ma30 1948Sa18 1948St.A PPSOA PPSOA PRLAA PHRVA PrvCom 61, 60, 195, 74, 466 466 287 1264 58St50 N. Feather, J. Kyles, R.W. Pringle D.G.E. Martin, H.O.W. Richardson, Y.K. Hsu D.G.E. Martin, H.O.W. Richardson D. Saxon K. Street,Jr., A. Ghiorso, D.A. Orth, G.T. Seaborg 1949 1949Be36 1949Be53 1949Du15 1949Fe18 1949Pa.B PHRVA PHRVA PHRVA PHRVA ORNL-336 76, 76, 76, 76, 1624 574 1272 1888 42 L.A. Beach, C.L. Peacock, R.G. Wilkinson P.R. Bell, B.H. Ketelle, J.M. Cassidy R.B. Duffield, L.M. Langer L. Feldman, L. Lidofsky, P. Macklin, C.S. Wu G.W. Parker, G.E. Creek, G.M. Hebert, P.M. Lantz 1950 1950Ag01 1950Br52 1950Br66 1950Fr58 1950Ha65 1950Ke11 1950La04 1950Ma14 1950Me55 1950Mo56 1950Na09 1950Ri59 PHRVA PHRVA PHRVA PHRVA PHRVA PHRVA PHRVA PHRVA PHRVA PHRVA PHRVA PHRVA 77, 79, 79, 79, 79, 79, 77, 78, 79, 80, 77, 80, 655 606 902 897 541 242 798 363 19 309 398 524 H.M. Agnew J.A. Bruner, L.M. Langer A.R. Brosi, H. Zeldes, B.H. Ketelle M.S. Freedman, D.W. Engelkemeir R.W. Hayward B.H. Ketelle, C.M. Nelson, G.E. Boyd L.M. Langer, J.W. Motz, H.C. Price,Jr. L.B. Magnusson, S.G. Thompson, G.T. Seaborg J.Y. Mei, A.C.G. Mitchell, C.M. Huddleston R.C. Mobley, R.A. Laubenstein R.A. Naumann, F.L. Reynolds, I. Perlman H.T. Richards, R.V. Smith, C.P. Browne 1951 1951Br87 1951Du03 1951Hy24 1951Je01 1951Ko17 1951Mc11 1951Mc48 1951Or.A 1951Ta05 1951Ve05 1951Wi26 PHRVA PHRVA PHRVA PHRVA AFYSA PHRVA PHRVA UCRL-1951 PHRVA PHYSA PHRVA 84, 81, 82, 81, 3, 81, 84, 292 203 944 143 47 734 384 81, 17, 84, 461 637 731 H.N. Brown, W.L. Bendel, F.J. Shore, R.A. Becker R.B. Duffield, L.M. Langer E.K. Hyde, G.D. O’Kelley E.N. Jensen, R.T. Nichols, J. Clement E. Kondaiah C.L. McGinnis J.J.G. McCue, W.M. Preston D.A. Orth, K. Street,Jr. S.I. Taimuty N.F. Verster, G.J. Nijgh, R. van Lieshout, C.J. Bakker R.M. Williamson, C.P. Browne, D.S. Craig, D.J. Donahue 1952 1952Al06 1952Be55 1952Be78 PHRVA AFYSA IANFA 85, 5, 16, 734 191 314 D.E. Alburger I. Bergström E.Y. Berlovich 585 586 1952Ch31 1952Fa14 1952Fe16 1952Fr23 1952Fu04 1952Hi.A 1952Ka41 1952Ko27 1952Mc34 1952Ro16 1952Sc09 1952Sc11 1952Sm41 1952Wi26 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 PHRVA 88, PHRVA 87, PHRVA 87, PPSOA 65, PHRVA 86, Th.-Berkeley PHRVA 85, AFYSA 4, PHRVA 87, PHRVA 86, PHRVA 85, PHRVA 85, PHRVA 87, PHRVA 85, 887 252 1091 911 347 368 81 202 863 873 1046 454 687 L.S. Cheng, J.L. Dick, J.D. Kurbatov C.Y. Fan L. Feldman, C.S. Wu J.H. Fremlin, M.C. Walters, and 95Tr07 and 02Tr04 S.C. Fultz, M.L. Pool G.H. Higgins M.I. Kalkstein, W.F. Libby E. Kondaiah C.L. McGinnis (Also PrvCom NDG) D. Rose, G. Hinman, L.G. Lang W.A. Schoenfeld, R.W. Duborg, W.M. Preston, C. Goodman C.L. Scoville, S.C. Fultz, M.L. Pool A.B. Smith, A.C.G. Mitchell, R.S. Caird R.G. Winter 1953 1953Am08 1953As.A 1953Ba81 1953Bl44 1953Co02 1953Du03 1953Ea11 1953Fi.A 1953Gl.A 1953Hy83 1953Jo20 1953Kn23 1953Ma64 1953Sh48 1953St31 PHRVA 91, UCRL-2180 IANFA 17, PHRVA 90, PRLAA 216, PHRVA 89, PHRVA 91, Th.-Rochester ANL-5000 PHRVA 90, CJPHA 31, PHRVA 91, PHRVA 92, PHRVA 91, PHYSA 19, 68 437 464 242 854 653 55 267 1136 889 1511 1203 279 D.P. Ames, M.E. Bunker, L.M. Langer, B.M. Sorenson F. Asaro A.A. Bashilov, N.M. Antoneva, B.S. Dzelepov, A.I. Dolgintseva E. Bleuler, J.W. Blue, S.A. Chowdary, A.C. Johnson, D.J. Tendam E.R. Collins, C.D. MacKenzie, C.A. Ramm R.B. Duffield, L.M. Langer H.T. Easterday R.W. Fink L.E. Glendenin, E.P. Steinberg E.K. Hyde, A. Ghiorso F.A. Johnson J.D. Knight, M.E. Bunker, B. Warren, J.W. Starner L. Marquez F.J. Shore, W.L. Bendel, H.N. Brown, R.A. Becker P.H. Stoker, Ong Ping Hok 1954 1954Be10 1954Br37 1954De17 1954El10 1954El24 1954Ha68 1954Hu61 1954Le08 1954Li19 1954Li24 1954Ma54 1954Mi89 1954Ni06 1954Nu27 PHRVA PPSOA PHRVA PRLAA PRYCA PHRVA PHRVA PHRVA PHRVA PHRVA PHRVA PHRVA PHRVA PHYSA 93, 67, 95, 224, 48, 96, 96, 93, 94, 95, 95, 96, 94, 20, 1073 397 458 129 12 1003 548 155 780 444 708 996 369 571 1954Ol03 1954Ol05 1954Po26 1954Pr31 1954Sa22 1954Th17 1954Th30 1954Th36 1954Th39 PHRVA PHRVA PHRVA PHRVA PHRVA AFYSA PHRVA AFYSA AFYSA 93, 95, 95, 96, 94, 7, 96, 8, 8, 1125 1539 1523 1390 642 289 850 219 229 W. Bernstein, S.S. Markowitz, S. Katcoff W.D. Brodie E. Der Mateosian, C.S. Wu R.B. Elliott, D.J. Livesey L.G. Elliott, R.L. Graham, J. Walker, J.L. Wolfson T.H. Handley, E.L. Olsen J.R. Huizenga, C.M. Stevens M.R. Lee, R. Katz L. Lidofsky, R. Gold, C.S. Wu T. Lindqvist, A.C.G. Mitchell H.B. Mathur, E.K. Hyde C. Mileikowsky, K. Ahnlund R.T. Nichols, E.N. Jensen R.H. Nussbaum, A.H. Wapstra, R. van Lieshout, G.J. Nijgh, L. Th. M. Ornstein, (and PrvCom NDG) J.L. Olsen, G.D. O’Kelley J.L. Olsen, G.D. O’Kelley A.V. Pohm, W.E. Lewis, J.H. Talboy,Jr., E.N. Jensen C.H. Pruett, R.G. Wilkinson B. Saraf S. Thulin, K. Nybø J. Thirion, R. Cohen, W. Whaling S. Thulin, J. Moreau, H. Atterling S. Thulin, J. Moreau, H. Atterling G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1954Za05 IANFA 18, 563 P.P. Zarubin 1955 1955Ad10 1955At21 1955Be20 1955Bl23 1955Br16 1955Da37 1955De18 1955De40 1955Dr43 1955Fa33 1955Go.A 1955Gr08 1955Jo02 1955Ki28 1955Ko14 1955Ma12 1955Ma40 1955Ma.A 1955Mc17 1955Mi90 1955Mo69 1955Nu11 1955On05 1955Pa50 1955Pe24 1955Th01 COREA PHYSA ZEPYA PHRVA PHRVA PHRVA PHMAA PHYSA IANFA PHRVA P-Moscow PHRVA PHRVA PHRVA PHRVA PHRVA COREA ANL-5386 PHRVA PHRVA JINCA PHYSA PHYSA AFYSA PHRVA AFYSA 240, 21, 142, 100, 100, 100, 46, 21, 19, 99, 97, 97, 99, 98, 97, 240, 1421 543 585 1324 84 796 445 803 324 1440 226 1033 1031 1393 1230 103 291 97, 100, 1, 21, 21, 9, 98, 9, 93 1390 274 77 676 571 262 137 J.P. Adloff A.H.W. Aten,Jr., G.D. De Feyfer W. Beekman J.W. Blue, E. Bleuler R.M. Brugger, T.W. Bonner, J.B. Marion M.C. Day,Jr., G.W. Eakins, A.F. Voigt H. De Waard E.F. De Haan, G.J.S. Sizoo, P. Kramer G.M. Drabkin, V.I. Orlov, L.I. Rusinov B. Farrelly, L. Koerts, N. Benczer, R. van Lieshout, C.S. Wu L.L. Goldin, E.F. Tretyakov, G.I. Novikov W.E. Graves, A.C.G. Mitchell J.T. Jones,Jr., E.N. Jensen J.D. Kington, J.K. Bair, H.O. Cohn, H.B. Willard L. Koerts, P. Macklin, B. Farrelly, R. van Lieshout, C.S. Wu P. Marmier, F. Boehm N. Marty L.B. Magnusson, F. Wagner,Jr., D.W. Engelkemeir, M.S. Freedman C.L. McGinnis J.P. Mize, M.E. Bunker, J.W. Starner F.F. Momyer,Jr., F. Asaro, E.K. Hyde R.H. Nussbaum, A.H. Wapstra, M.J. Sterk, R.E.W. Kropveld Ong Ping Hok, P. Kramer R.T. Pauli I. Perlman, F. Stephens, F. Asaro S. Thulin 1956 1956Ar33 1956As38 1956Be18 1956Bi30 1956Ch.A 1956Co13 1956Da06 1956Do41 1956Gr11 1956Gr12 1956Ha10 1956Ho23 1956Ho66 1956Jo05 1956Jo20 1956Ke23 1956Kn20 1956Ko67 1956La24 1956Po16 1956Po28 1956Sh31 1956Sm85 1956Sm96 1956Th11 1956Wa24 AFYSA 10, PHRVA 104, PHRVA 101, NUCIA 4, UCRL- 3322 PHRVA 101, ZENAA 11, PHRVA 104, PHRVA 101, PHRVA 101, PHRVA 101, JINCA 2, PHRVA 104, CJPHA 34, PHRVA 102, PHRVA 103, PHRVA 102, ZETFA 31, ANPHA 1, ZENAA 11, PHRVA 103, ZETFA 30, JINCA 3, PHRVA 104, PHRVA 102, PHRVA 102, 1 91 1027 758 1042 212 1059 1306 1368 93 209 368 69 831 190 1592 771 152 143 921 891 93 706 195 816 E. Arbman, N. Svartholm F. Asaro, I. Perlman N. Benczer, B. Farrelly, L. Koerts, C.S. Wu A. Bisi, S. Terrani, L. Zappa A. Chetham-Strode (thesis Berkeley) J.M. Cork, M.K. Brice, D.W. Martin, L.C. Schmid, R.G. Helmer H. Daniel, R. Nierhaus R.A. Douglas, J.W. Broer, R. Chiba, D.F. Herring, E.A. Silverstein P.R. Gray W.E. Graves, S.K. Suri R.W. Hayward, D.D. Hoppes D.C. Hoffman, C.P. Browne D.D. Hoppes, R.W. Hayward M.W. Johns, C.V. McMullen, I.R. Williams, S.V. Nablo N.R. Johnson, R.K. Sheline, R. Wolfgang B.H. Ketelle, H. Thomas, A.R. Brosi J.D. Knight, J.P. Mize, J.W. Starner, J.W. Barnes L.M. Kondratev, G.I. Novikova, Y.P. Sobolev, L.L. Goldin J. Laberrigue-Frolow W. Porschen, W. Riezler F.T. Porter, M.S. Freedman, T.B. Novey, F. Wagner,Jr. K.N. Shlyagin H.L. Smith, C.P. Browne, D.C. Hoffman, J.P. Mize, M.E. Bunker F.B. Smith, N.B. Gove, R.W. Henry, R.A. Becker M.T. Thieme, E. Bleuler R.G. Waddell, E.N. Jensen 587 588 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1957 1957Ah19 1957Ba08 1957Bu37 1957Bu41 1957Co62 1957Fr.A 1957Ha08 1957He39 1957He43 1957Je.A 1957Kn.A 1957Mi63 1957Ok.A 1957Ol05 1957Sm73 1957Th10 1957Va08 1957Wa01 AFYSA ZENAA PHRVA PHRVA PPSOA PrvCom CJPHA PHRVA NUPHA PrvCom PrvCom ANPHA BAPSA PHRVA PHRVA PHRVA PHYSA PHRVA 11, 12, 106, 105, 70, 35, 105, 3, NDG NDG 2, 2, 106, 107, 106, 23, 105, 379 520 1224 227 769 58St50 258 1011 161 Jun Apr 116 24 985 1314 1228 753 639 K. Ahnlund G. Baro, P. Rey J.W. Butler, K.L. Dunning, R.O. Bondelid M.E. Bunker, J.P. Mize, J.W. Starner R.D. Connor, I.L. Fairweather M.S. Freedman, D.W. Engelkemeir, F.T. Porter, F. Wagner,Jr. B.G. Harvey, H.G. Jackson, T.A. Eastwood, G.C. Hanna R.L. Heath C.J. Herrlander, T.R. Gerholm E.N. Jensen J.D. Knight A. Michalowicz G.D. O’Kelley, Q.V. Larson, G.E. Boyd J.L. Olsen, L.G. Mann, M. Lindner W.G. Smith, R.L. Robinson, J.H. Hamilton, L.M. Langer T.D. Thomas, R. Vandenbosch, R.A. Glass, G.T. Seaborg B. Van Nooijen, J. Konijn, A. Heyligers, J.F. van den Brugge, A.H. Wapstra E.K. Warburton, J.N. McGruer 1958 1958Al99 1958Ar56 1958Bi41 1958Br88 1958Du78 1958Gi05 1958Gl56 1958Go77 PHRVA AFYSA PHRVA HPACA PHRVA PHRVA IANFA PRLTA 112, 13, 112, 31, 110, 109, 22, 1, 1998 501 1089 335 1076 1263 941 251 1958Gr07 1958Ha32 1958Hi.A 1958Jo01 1958Ko57 1958Na15 1958Ni28 1958No30 1958Ri23 1958Ro09 1958Se71 1958St50 1958Wa.A IANFA 22, PHRVA 112, UCRL- 8423 PHRVA 109, PHYSA 24, CJPHA 36, NUPHA 9, AFYSA 14, ZENAA 13, PHRVA 109, IANFA 22, RMPHA 30, P-Paris 194 2010 1243 377 1409 528 85 904 1255 198 585 910 D.E. Alburger, S. Ofer, M. Goldhaber E. Arbman, J. Brude, T.R. Gerholm H. Bichsel J. Brunner, J. Halter, P. Scherrer K.L. Dunning, J.W. Butler, R.O. Bondelid J.E. Gindler, J.R. Huizenga, D.W. Engelkemeir M.P. Glazunov, B.F. Fulev H.E. Gove, J.A. Kuehner, A.E. Litherland, E. Almqvist, D.A. Bromley, A.D. Ferguson, P.H. Rose, R.P. Bastide, N. Brooks, R.D. Connor E.P. Grigorev, A.V. Zolotavin, I.I. Kuzmin, E.D. Pavlitskaia J.H. Hamilton, L.M. Langer, W.G. Smith M.W. Hill C.H. Johnson, A. Galonsky, J.P. Ulrich J. Konijn, B. van Nooijen, H.L. Hagedoorn S.V. Nablo, M.W. Johns, A. Artna, R.H. Goodman G.J. Nijgh, A.H. Wapstra, L.T.M. Ornstein, N. Salomons-Grobben T. Novakov, R. Stockendal, M. Schmorak, B. Johansson W. Riezler, G. Kauw R.L. Robinson, L.M. Langer V.A. Sergienko D. Strominger, J.M. Hollander, G.T. Seaborg R.J. Walen, G. Bastin 1959 1959Ac28 1959Al06 1959Am16 1959An33 1959Be72 1959Bo61 1959Br65 1959Bu20 1959Co63 1959Dr.A PHRVA PHRVA PISAA NUPHA PHRVA NUPHA PHRVA PHRVA PPSOA BAPSA 114, 116, 50, 13, 115, 14, 113, 116, 74, 4, 137 939 342 310 108 145 239 143 161 57 W.T. Achor, W.E. Phillips, J.I. Hopkins, S.K. Haynes D.E. Alburger, A. Gallmann, D.H. Wilkinson K.S.Y. Ambiye, M.C. Yoshi, B.V. Thosar S.L. Anderson, T. Holtebekk, O. Lonsjo, R. Tangen N. Benczer-Koller, A. Schwarzschild, C.S. Wu P. Boskma, H. De Waard A.R. Brosi, B.H. Ketelle, H.C. Thomas, R.J. Kerr M.E. Bunker, B.J. Dropesky, J.D. Knight, J.W. Stamer, B. Warren R.D. Connor, I.L. Fairweather B.J. Dropesky, D.C. Hoffman, W.R. Daniels G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1959Fl40 1959Gi50 1959Go68 1959Ha27 1959Ho97 1959Jo37 1959Kn38 1959Ku79 1959No41 1959Po77 1959Ro53 1959To.A 1959Va02 1959Va32 PHRVA NUPHA PHRVA PHRVA AFYSA PHRVA JINCA PHYSA ZETFA PHRVA CJPHA BAPSA PHRVA PHRVA 116, 12, 113, 114, 15, 114, 10, 25, 37, 114, 37, 4, 115, 113, 744 204 246 1133 387 279 183 600 928 1286 385 366 115 259 589 K.F. Flynn, L.E. Glendenin R.K. Girgis, R. van Lieshout C.R. Gossett, J.W. Butler D.S. Harmer, M.L. Perlman G. Holm, H. Ryde N.R. Johnson, G.D. O’Kelley J.D. Knight, D.C. Hoffman, B.J. Dropesky, D.L. Frasco J. Kuperus, P.J.M. Smulders, P.M. Endt G.I. Novikova, E.A. Volkova, L.I. Goldin, D.M. Ziv, E.F. Tretyakov F.T. Porter, P.P. Day J.P. Roy, L.P. Roy C.W. Townley, J.D. Kurbatov, M.H. Kurbatov S.E. Vandenbosch, H. Diamond, R.K. Sjoblom, P.R. Fields S.E. Vandenbosch 1960 1960Ar05 1960Ba17 1960Ba44 1960Bo21 1960Cr01 1960Dz02 1960Fe03 1960Gi01 1960Ha26 1960Ho.A CJPHA NUPHA IANFA PHRVA NUPHA IANFA ANPHA NUPHA PHRVA PrvCom 38, 15, 24, 120, 14, 24, 5, 14, 119, 1577 566 1035 889 578 802 181 589 772 Hyde 1960Ja13 1960Je03 1960Ka14 1960Ka20 1960Ko12 1960La04 1960Lu07 1960Ma.A 1960Mo.A 1960Pr07 1960Se05 1960Ta19 1960Vo05 1960Vo07 1960Wa03 1960Wa14 PHRVA 120, NUPHA 19, PHRVA 119, JUPSA 15, PHRVA 120, PHRVA 119, ZENAA 15, UCRL- 8740 BAPSA 5, PHRVA 118, NUPHA 16, NUPHA 21, ZETFA 39, IANFA 24, PHRVA 117, NUPHA 16, 914 654 1953 2140 1348 1308 939 338 113 138 133 70 1092 191 246 A. Artna, M.E. Law G. Backstrom, O. Bergman, J. Burde, J. Lindskog S.A. Baranov, A.G. Zelenkov, V.M. Kulakov R.O. Bondelid, C.A. Kennedy, J.W. Butler C.B. Creager, C.W. Kocher, A.C.G. Mitchell B.S. Dzelepov, I.F. Uchevatkin, S.A. Shestopalova L. Feuvrais R.K. Girgis, R.A. Ricci, R. van Lieshout J.H. Hamilton, L.M. Langer, W.G. Smith R.W. Hoff, F. Asaro, I. Perlman, in E.K. Hyde, I. Perlman, G.T. Seaborg, Nuclear Properties Heavy Elements p. 799 N. Jarmie, M.G. Silbert B.S. Jensen, O.B. Nielsen, O. Skilbreit W.R. Kane, G.T. Emery, G. Scharff-Goldhaber, M. McKeown T. Katoh, M. Nozawa, Y. Yoshizawa, Y. Koh C.W. Kocher, A.C.G. Mitchell, C.B. Creager, T.D. Nainan L.M. Langer, D.R. Smith G. Luhrs, C. Mayer-Boricke T.V. Marshall R.B. Moore W.W. Pratt, R.G. Cochran O.J. Segaert, J. Demuynck, A.M. Hoogenboom, H. van den Bold K. Takahashi, H. Morinaga A.A. Vorobiev, A.P. Komar, V.A. Korolev A.A. Vorobiev, A.P. Komar, V.A. Korolev W.R. Ware, E.O. Wiig R.J. Walen, G. Bastin-Scoffier 1961 1961Ar05 1961Ar15 1961Ba43 1961Be13 1961Be20 NUPHA CJPHA ZETFA PHRVA ZETFA 22, 39, 41, 123, 40, 341 1817 1484 2100 91 1961Be41 1961Bo13 1961Bo24 1961Bo.B 1961Da01 1961De17 NUPHA PHRVA NUPHA P-Dubna ZEPYA NUPHA 28, 124, 27, 570 213 581 164, 28, 303 148 E. Arbman, I.B. Haller A. Artna, M.W. Johns K.A. Baskova, S.S. Vasilev, N.S. Chang, L.Y. Shavtvalov E.H. Beckner, R.L. Bramblett, G.C. Phillips, T.A. Eastwood A. Bedesku, O.M. Kalinkina, K.P. Mitrofanov, A.A. Sorokin, N.V. Forafontov, V.S. Shpinel G.B. Beard, W.H. Kelly H.H. Bolotin, A.C. Li, A. Schwarzschild N.A. Bonch-Osmolovskaya, B.S. Dzelepov, O.E. Kraft, Y.Y. Yang N.A. Bonch-Osmolovskaya, B.S. Dzelepov, O.E. Kraft H. Daniel, P. Panussi H.G. Devare 590 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1961Di04 1961Du02 1961Er04 1961Fi05 1961Ga05 1961Gr33 NUPHA PHRVA AFYSA AFYSA PHRVA IANFA 25, 123, 20, 19, 122, 25, 248 1321 209 323 1590 1217 1961Gu02 1961Hi06 1961Ja07 1961Jo08 1961Jo15 1961Ko11 1961La05 1961Ni02 1961Pe23 1961Re06 1961Ri02 1961Ru06 1961Ry02 1961Ry04 1961Sc11 1961Se08 1961Si03 1961To03 1961To10 1961We11 1961Wr02 1961Zy02 AFYSA 18, JUPSA 16, PHRVA 123, PHRVA 122, PHRVA 124, IANFA 25, DANKA 137, PHRVA 122, ZETFA 41, JINCA 18, NUPHA 24, UCRL- 9511 HPACA 34, HPACA 34, PHRVA 123, IANFA 25, PHRVA 123, PPSOA 77, JOPQA 22, PHRVA 124, PHRVA 123, APPOA 20, 443 1280 909 1546 157 237 551 172 1780 13 494 240 819 893 848 221 399 683 527 205 321 R.M. Diamond, J.M. Hollander, D.J. Horen, R.A. Naumann K.L. Dunning, J.W. Butler P. Erman, Z. Sujkowski R.W. Fink, G. Andersson, J. Kantele C.J. Gallagher,Jr., H.L. Nielsen, O.B. Nielsen E.P. Grigorev, K.Y. Gromov, B.S. Dzelepov, Z.T. Zhelev, V. Zvolska, I. Zvolskii R.K. Gupta, J. Svedberg, G. Andersson H. Hisatake N. Jarmie, M.G. Silbert N.R. Johnson, E. Eichler, G.D. O’Kelley, J.W. Chase, J.T. Wasson R.C. Jopson, H. Mark, C.S. Swift, J.H. Zenger G.E. Kocharov, G.A. Korolev A.K. Lavrukhina, T.V. Malysheva, B.A. Khotin R.T. Nichols, R.E. McAdams, E.N. Jensen K.A. Petrzhak, M.I. Yakunin I. Rezanka, J. Frana, M. Vobecky, A. Mastalka R. Rikmenspoel, C.M. Van Patter C.P. Ruiz A. Rytz A. Rytz, H. Winkler, F. Zamboni, W. Zych A.W. Schardt, A. Goodman I.P. Selinov, V.L. Chikhladze, D.E. Khulelidze M.G. Silbert, N. Jarmie J.H. Towle, B.E.F. Macefield J. Tousset, A. Moussa H.I. West,Jr., L.G. Mann, R.J. Nagle P.M. Wright, E.P. Steinberg, L.E. Glendenin J. Żylicz, Z. Preibisz, S. Chojnacki, J. Wolowski, Y. Norseev 1962 1962Ba23 1962Ba24 1962Ba28 1962Ba32 1962Bo25 1962Br15 1962Bu16 1962Ch21 1962Da03 1962Ei02 1962El02 1962Ew01 1962Fr09 1962Fu16 1962Ga07 1962Gu03 1962In01 1962Ka08 1962Ka23 1962Ka27 1962Kh05 1962La10 1962Li03 1962Lo10 1962No06 1962Pe08 1962Pe15 PRLTA CJPHA NUPHA AFYSA AFYSA PHRVA PHRVA ZETFA NUPHA NUPHA NUPHA NUPHA NUPHA NUPHA NUPHA PHRVA NUPHA NUPHA NUPHA AAFPA IANFA NUPHA NUPHA ZETFA NUPHA HPACA PHRVA 9, 40, 33, 21, 22, 125, 127, 43, 31, 35, 31, 29, 38, 39, 33, 126, 38, 32, 36, 6, 26, 35, 31, 43, 36, 35, 127, 16 1496 347 65 111 1323 844 453 293 625 128 153 89 147 285 642 50 25 394 96 1036 582 584 1579 411 175 917 R.C. Barber, L.A. Cambey, J.H. Ormrod, R.L. Bishop, H.E. Duckworth R.C. Barber, R.L. Bishop, L.A. Cambey, W. McLatchie, H.E. Duckworth B. Basu, A.P. Patro E. Bashandy, M.S. El-Nesr E.C.O. Bonacalza, P. Thieberger, I. Bergström H.W. Brandhorst,Jr., J.W. Cobble M.E. Bunker, B.J. Dropesky, J.D. Knight, J.W. Starner V.L. Chikhladze, D.E. Khulelidze, R.A. Ryukhin H. Daniel E. Eichler, G.D. O’Kelley, R.L. Robinson, J.A. Marinsky, N.R. Johnson M.S. El-Nesr, E. Bashandy G.T. Ewan, R.L. Graham, J.S. Geiger J.M. Freeman, D. West E.G. Funk,Jr., J.W. Mihelich, C.F. Schwerdtfeger C.J. Gallagher,Jr., M. Jorgensen, O. Skilbreid R. Gunnink, A.W. Stoner H. Inoue, J. Ruan, S. Yasukawa, Y. Yoshizawa T. Katoh, M. Nozawa, Y. Yoshizawa T. Katoh, M. Nozawa, Y. Yoshizawa, Y. Koh P. Kauranen D.E. Khulelidze, V.L. Chikhladze, N.A. Vartenov, Y.A. Kyukhin N.L. Lark, P.F.A. Goudsmit, J.F.W. Jansen, J.E.J. Oberski, A.H. Wapstra E.W.A. Lingeman, K.E.G. Lobner, G.J. Nijgh, A.H. Wapstra V.M. Lobashov, V.A. Nazarenko, L.F. Saenko M. Nozawa C.F. Perdrisat, J.H. Brunner, H.J. Leisi I. Perlman, F. Asaro, A. Ghiorso, A. Larsh, R. Latimer G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1962Pi02 1962Pu01 1962Sc04 1962Se03 1962Si14 1962Un01 1962Va08 1962Va10 1962Wa15 1962Wa16 1962Wa18 1962Wa20 1962Wa28 1962Ya01 PHRVA NUPHA PHRVA PHRVA AAFPA NUPHA NUPHA NUPHA PHMAA NUPHA NUPHA NUPHA COREA NUPHA 127, 36, 125, 125, 6, 36, 30, 31, 7, 31, 35, 36, 255, 30, 1708 1 1641 968 109 284 177 406 105 575 232 207 1604 68 591 W.R. Pierson, H.C. Griffin, C.D. Coryell D.J. Pullen, A.E. Litherland, S. Hinds, R. Middleton C.F. Schwerdtfeger, E.G. Funk,Jr., J.W. Mihelich M.L. Seghal A. Siivola J. Unik, P. Day, S. Vandenbosch S.E. Vandenbosch, P. Day B. Van Nooijen, H. van Krugten, W.J. Wiesehahn, A.H. Wapstra D.E. Watt, R.N. Glover A.H. Wapstra, J.F.W. Jansen, P.F.A. Goudsmit, J. Oberski R.J. Walen, V. Nedovesov, G. Bastin-Scoffier L.B. Warner, R.K. Sheline R.J. Walen T. Yamazaki, H. Ikegami, M. Sakai 1963 1963Ab02 PHLTA 5, 359 1963Ba32 1963Ba37 NUPHA ZETFA 43, 44, 285 35 1963Ba47 CJPHA 41, 1482 1963Bi12 CJPHA 41, 1532 1963Bj01 1963Bj02 1963Bl03 1963Bo07 1963Bo14 1963Bo17 1963Ca03 1963Cr06 1963Da03 1963Da10 1963Do07 1963Em02 NUPHA NUPHA PHLTA PHRVA PHYSA PHYSA PHRVA PHRVA ZEPYA PHRVA PHRVA PHRVA 42, 42, 3, 130, 29, 29, 129, 132, 172, 132, 132, 129, 469 642 257 1078 277 535 1782 1681 202 1673 2600 2597 1963Fr10 1963Fu17 PHRVA KERNA 132, 6, 2169 152 1963Go06 1963Gr08 1963Gu04 1963Ho18 1963Ho.A 1963Ik01 1963Ja06 NUCIA 30, AAFPA 6, PHRVA 131, JINCA 25, PrvCom AHW NUPHA 41, NUPHA 41, 14 128 301 1303 1963Ka21 1963La06 1963Ok01 1963Pa09 1963Pe13 1963Pe16 1963Pl01 1963Pr13 1963Rh02 PHLTA PHRVA JUPSA NUPHA NUPHA PHLTA CZYPA BAPMA PHRVA 98 324 1563 336 653 347 23 691 1227 6, 132, 18, 45, 44, 6, 13, 11, 131, 130 303 A. Abdumalikov, A. Abdurazakov, K. Gromov, Z. Zhelev, N. Lebedev, B. Dzelepov, A. Kudryavtseva C.V.K. Baba, G.T. Ewan, J.F. Suarez N.B. Badalov, S.S. Vasilenko, M.G. Kaganskii, D.L. Kaminskii, M.K. Nikitin R.C. Barber, W. McLatchie, R.L. Bishop, P. Van Rookhuyzen, H.E. Duckworth R.L. Bishop, R.C. Barber, W. McLatchie, J.D. Macdougall, P. Van Rookhuyzen, H.E. Duckworth S. Bjornholm, F. Boehm, A.B. Knutsen, O.B. Nielsen S. Bjornholm, O.B. Nielsen H.R. Blieden R.O. Bondelid, J.W. Butler P. Born, C. Bobeldijk, W.A. Oost, J. Blok P. Born, A. Veefkind, W.H. Elsenaar, J. Blok D.C. Camp, L.M. Langer B. Crasemann, G.T. Emery, W.R. Kane, M.L. Perlman H. Daniel, O. Mehling, D. Schotte R.A. Damerow, R.R. Ries, W.H. Johnson,Jr. I. Dostrovsky, S. Katcoff, R.W. Stoenner G.T. Emery, W.R. Kane, M. McKeown, M.L. Perlman, G. ScharffGoldhaber G. Frick, A. Gallmann, D.E. Alburger, D.H. Wilkinson, J.P. Coffin L. Funke, K. Hohmuth, H. Jungclaussen, K.-H. Kaun, G. Muller, H. Sodan, L. Werner K.P. Gopinathan, M.C. Joshi, M. Radha Menon G. Graeffe R. Gunnink R.W. Hoff, F. Asaro, I. Perlman A.M. Hoogenboom H. Ikegami, K. Sugiyama, T. Yamazaki, M. Sakai A. Jasinski, J. Kownacki, H. Lancman, J. Ludziejewski, S. Chojnacki, I. Yutlandov M. Karras, J. Kantele L.M. Langer, D.E. Wortman K. Okano, K. Nishimira M. Pasternak, T. Sonnino L. Persson, H. Ryde, K. Oelsner-Ryde L. Persson Z. Plajner, L. Maly, N. Eissa, A. Benadek Z. Preibisz, K. Pawlak, K. Stryczniewicz J.I. Rhode, O.E. Johnson 592 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1963Ri07 1963Ry01 1963Sc15 1963Su.A 1963Th02 1963Va24 1963Wo04 1963Yo07 PHRVA 132, AFYSA 23, PHRVA 132, UCRL-11082 NUPHA 41, PHYSA 29, RAACA 1, NUPHA 46, 1963Zy01 NUPHA 42, 1662 171 2650 380 990 225 78 330 R.R. Ries, R.A. Damerow, W.H. Johnson,Jr. H. Ryde, L. Persson, K. Oelsner-Ryde F. Schima, E.G. Funk,Jr., J.W. Mihelich V.B. Subrahmanyam (thesis Berkeley) B.V. Thosar, R.P. Sharma, K.G. Prasad C. van der Leun, P.M. Endt G. Wolzak, H. Morinaga Y. Yoshizawa, H. Okamura, S. Iwata, I. Fugiwara, T. Shigematsu, M. Tabushi, T. Tarumoto, K. Sakamoto J. Żylicz, Z. Sujkowski, J. Jastrzebski, O. Wolczek, S. Chojnacki, I. Yutlandov 1964 1964Ag.A P-Tbilis 63 1964As01 1964Ba03 PLRBA CJPHA 133, 42, 291 391 1964Ba13 1964Ba36 1964Be10 1964Bo13 1964Bo25 1964Bu10 1964Da15 1964De10 1964Do01 1964Er06 1964Fl02 1964Fu08 1964Go08 1964Gr11 1964Ha29 1964Ho28 1964Jo11 1964Ka10 1964Ka16 1964Ka23 1964La03 1964La13 1964Ma30 1964Ma36 1964Ma.A 1964Mc21 1964Pa03 1964Pe17 1964Sa32 1964Sc27 1964Sh21 1964Sp12 1964Ta11 NUPHA PLRBA NUPHA NUPHA AFYSA PLRBA NUPHA PLRBA NUPHA PLRBA RAACA NUPHA PLRBA AAFPA PHYSA APASA PLRBA PLRBA AAFPA AFYSA PLRBA PLRBA CJPHA CZYPA P-Vienna CPHMA APASA PLRBA SHIBA IDO-17042 JUPSA P-Vienna JUPSA 52, 136, 50, 53, 26, 136, 56, 134, 50, 135, 2, 60, 134, 6, 30, 18, 136, 135, 6, 27, 133, 135, 42, 14, 19, 125 603 657 618 141 1 147 705 489 110 210 294 297 145 1802 309 1719 9 162 61 1145 581 1700 240 279 #4 315 330 54 11 245 289 587 1964Th05 1964To04 1964Va20 1964Wi07 NUPHA PLRBA AAFPA PLRBA 60, 136, 6, 135, 35 1233 165 289 30, 18, 136, 5, 19, V.K. Ageev, K.Y. Gromov, B.S. Dzelepov, Z. Zhelev, V. Kalinnikov, A. Kudryavtseva F. Asaro, S. Bjornholm, I. Perlman R.C. Barber, W. McLatchie, R.L. Bishop, J.D. Macdougall, P. van Rookhuyzen, H.E. Duckworth H. Bakhru, S.K. Mukherjee E.L. Bahn,Jr., B.D. Pate, R.D. Fink, C.D. Coryell U. Bertelsen, G.T. Ewan, H.L. Nielsen R.O. Bondelid, J.W. Butler E.C.O. Bonacalza S.B. Burson, E.B. Shera, T. Gedayloo, R.G. Helmer, D. Zei H. Daniel, J. Huefner, T. Lorenz, O.W.B. Schult, U. Gruber S.H. Devare, H.G. Devare D. Donhoffer J.R. Erskine J. Flegenheimer, G.B. Baro M. Fujioka, K. Hisatake, K. Takahashi K.P. Gopinathan, M.G. Joshi G. Graeffe, K. Valli, J. Aaltonen J.H. Hamilton, K.E.G. Lobner, A.R. Sattler, R. van Lieshout I. Hofman C.H. Johnson, C.C. Trail, A. Galonsky J. Kantele, M. Karras J. Kantele, K.M. Broom, D.M. Chittenden S.E. Karlsson, O. Bergman, W. Scheuer L.M. Langer, E.H. Spejewski, D.E. Wortman L.M. Langer, E.H. Spejewski, D.E. Wortman K.C. Mann, F.A. Payne, R.P. Chaturvedi L. Maly, Z. Plajner, J. Jursik, M. Finger J.B. Marion J.D. McCoy H. Paul N.F. Peek, J.A. Jungerman, C.G. Patten K. Sato R.P. Schuman Y. Shida A. Sperduto, W.W. Buechner E. Takekoshi, Z.-I. Matumoto, M. Ishii, K. Sugiyama, S. Hayashibe, H. Sekiguchi, H. Natsume K.S. Thorne, E. Kashy K.S. Toth, T.H. Handley, E. Newman, I.R. Williams K. Valli D.C. Williams, R.A. Naumann 1965 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1965Bi04 1965Bi12 1965Bl06 1965Br28 1965Br31 1965Bu03 1965Bu07 1965Ce02 1965Co06 1965Cr04 1965Da01 1965De20 1965De22 1965Du02 1965Eb01 1965Fr04 1965Fr12 1965Go05 1965Gu03 1965Ha30 1965Ho07 1965Hs02 1965Iv01 1965Jo04 1965Jo13 1965Ka07 1965Ke04 1965Kv01 1965Le06 1965Le07 1965Li11 1965Ma07 1965Ma32 1965Ma51 1965Me12 1965Mo16 1965Mo19 1965Mu09 1965Og01 1965Pa08 1965Pe18 1965Ra02 1965Re07 1965Ry01 1965Sc19 1965Va02 1965Va16 1965Wi08 PLRBA IANFA AFYSA NUPHA NUPHA JINCA NUPHA PRLTA CJPHA NUPHA NUPHA NUPHA PLRBA COREA NUPHA NUPHA PLRBA PLRBA NUPHA PHLTA NUPHA NUPHA IANFA NUPHA NUPHA JINCA NUPHA NUPHA NUPHA NUPHA JNCEA PHLTA NUPHA IANFA PHLTA NUPHA NUPHA NUPHA NUPHA NUPHA AFYSA PLRBA NUPHA NUPHA PLRBA NUPHA AAFPA PHLTA 138, 29, 28, 72, 72, 27, 65, 15, 43, 70, 63, 73, 140, 261, 61, 64, 140, 137, 64, 19, 71, 73, 29, 61, 72, 27, 61, 74, 63, 65, 19, 14, 67, 29, 19, 74, 70, 67, 66, 72, 29, 137, 65, 70, 140, 63, 6, 15, 514 151 415 194 529 907 561 300 383 129 145 49 536 98 479 303 563 1466 401 304 449 379 157 385 617 1451 513 27 263 337 73 46 73 1121 133 403 293 466 119 326 423 13 609 369 1496 241 177 143 593 W.N. Bishop E.I. Biryukov, V.T. Novikov, N.S. Shimanskaya P.H. Blichert-Toft C.P. Browne, W.E. Dorenbusch, F.H. O’Donnell L. Broman, J. Dubois F.D.S. Butement, S.M. Quaim J. Burde, M. Rakavi, G. Adam J. Cerny, C. Détraz, R.H. Pehl C.R. Cothern, R.D. Connor T. Cretzu, K. Hohmuth, J. Schintlmeister H. Daniel, M. Kuntze, B. Martin, P. Schmidlin, H. Schmitt S.A. De Wit, A.H. Wapstra S.H. Devare, R.M. Singru, H.G. Devare J.C. Duperrin, A. Guizon-Juillard T.G. Ebrey, P.R. Gray K. Fritze M.S. Freedman, F.T. Porter, F. Wagner,Jr. S. Gorodetsky, A. Gallmann, R. Rebmeister M. Guttman, E.G. Funk,Jr., J.W. Mihelich P.G. Hansen, H.L. Nielsen, K. Wilsky, J. Treherne C.G. Hoot, M. Kondo, M.E. Rickey S.T. Hsue, L.M. Langer, S.M. Tang, D.A. Zollman Y.F. Ivanov, I.A. Rumer, A.Y. Bukach M.W. Johns, M. Kawamura N.R. Johnson, K. Wilsky, P.G. Hansen, H.L. Nielsen P. Kauranen, H. Ihochi W.J. Keeler, R.D. Connor E. Kvale, A.C. Pappas H. Leutz, K. Schneckenberger, H. Wennige W.H.G. Lewin, J. Lettinga, B. van Nooijen, A.H. Wapstra H. Liskien, A. Paulsen A. Marinov, J.R. Erskine J.H.E. Mattauch, W. Thiele, A.H. Wapstra I. Mahunka, T. Fenyes R. Messlinger, H. Morinaga, C. Signorini R. Moreh, T. Daniels R. Moreh A. Mukerji, D.N. McNelis, J.W. Kane,Jr. I. Ogawa, T. Doke, M. Miyajima, A. Nakamoto H. Paul H. Pettersson, O. Berhman, C. Bergman A.V. Ramaya, Y. Yoshizawa R. Reising, B.D. Pate A. Rytz F. Schima, T. Katoh B. Van Nooijen, W. Lourens, H. van Krugten, A.H. Wapstra K. Valli, J. Aaltonen, G. Graeffe, M. Nurmia, R. Poeyhoenen E.T. Williams, P.G. Hansen, J. Lipperts, H.L. Nielsen, K. Wilsky 1966 1966Ah.A 1966Ah.B 1966Ak01 UCRL-16580 UCRL-16888 AENGA 21, 243 1966An10 1966Au04 1966Av03 CHDBA NUPHA IANFA 214 441 542 262, 81, 30, 21 I. Ahmad, F. Asaro, I. Perlman I. Ahmad G.N. Akapev, A.G. Demin, V.A. Druin, E.G. Imaev, I.V. Kolesov, Y.V. Lobanov, L.P. Pashchenko S. Andre, P. Depommier R.L. Auble, W.H. Kelly M.P. Avotina, E.P. Grigorev, B.S. Dzelepov, A.V. Zolotavin, V.O. Sergeev 594 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1966Ba07 1966Ba14 1966Be10 1966Be12 1966Bj01 1966Bl15 1966Bo20 1966Br14 1966Bu16 1966Ca09 1966Ca10 1966Da04 1966Da06 1966De11 1966Ei01 1966El09 1966Er02 1966Fu05 1966Fu08 1966Ga03 1966Ga08 1966Ha15 YAFIA 4, CHDBA 262, PHRVA 141, PHLTA 21, NUPHA 86, PHRVA 151, NUPHA 86, NUPHA 81, KDVSA 35, NUPHA 82, NUPHA 85, NUPHA 76, PHRVA 147, NUPHA 83, PHRVA 146, ORNL-3889 PHRVA 142, NUPHA 84, NUPHA 84, NUPHA 76, PHRVA 147, NUPHA 76, 1108 89 1112 205 145 930 187 233 #2 471 317 97 845 289 899 49 633 461 424 353 753 257 1966Ha29 1966He10 1966Hi01 1966Hs01 1966Ki06 1966La04 1966Li04 1966Ma49 1966Ma51 1966Mc12 1966Mo06 1966Ne01 1966No05 1966Ny01 1966Pa18 1966Pe10 1966Po04 1966Qa02 1966Ra03 1966Re02 1966Rg01 NUPHA NUPHA PHLTA NUPHA CJPHA NUPHA PHRVA IANFA IANFA CJPHA PHRVA PRLTA NUPHA NUPHA NUPHA NUPHA PHRVA NUPHA PHRVA PHLTA PHRVA 84, 88, 21, 80, 44, 78, 141, 30, 30, 44, 141, 16, 86, 88, 85, 83, 146, 88, 142, 20, 148, 62 561 328 657 2661 1 1089 1185 1375 3033 1166 28 102 63 504 33 774 285 768 40 1192 1966Ri01 1966Ri09 1966Sc23 1966Sc24 1966Sh03 NUPHA NUPHA NUPHA PHRVA PHRVA 75, 86, 89, 151, 143, 381 167 401 950 857 1966Si08 1966Sn02 1966Va.A 1966Vo05 1966Wh01 1966Wi04 1966Wi11 NUPHA 84, PHRVA 147, UCRL-16580 ZEPYA 195, PHRVA 150, ZEPYA 191, PHLTA 22, 385 967 85 343 836 137 162 S.A. Baranov, Y.F. Rodionov, V.M. Kulakov, V.M. Shatinskii G. Bastin, C.F. Leang, R.J. Walen J.L. Benson, W.H. Johnson,Jr. H. Beekhuis J.H. Bjerregaard, O. Hansen, O. Nathan, S. Hinds A.G. Blair, D.D. Armstrong B.E. Bonner, G. Rickards, D.L. Bernard, G.C. Phillips H.F. Brinckmann, C. Heiser, K.F. Alexander, W. Neubert, H. Rotter D.G. Burke, B. Zeidman, B. Elbek, B. Herskind, M. Olesen R.C. Catura, J.R. Richardson M.J. Canty, W.F. Davidson, R.D. Connor H. Daniel, G.T. Kaschl W.R. Daniels, D.C. Hoffman E.Y. De Aisenberg, J.F. Suarez E. Eichler, J.W. Chase, N.R. Johnson, G.D. O’Kelley J.S. Eldridge, W.S. Lyon J.R. Erskine, A. Marinov, J.P. Schiffer L. Funke, H. Graber, K.-H. Kaun, R. Ross, H. Sodan, L. Werner, J. Frana L. Funke, H. Graber, K.-H. Kaun, H. Sodan, G. Geske, J. Frana R. Gaeta, M.A. Vigon A. Gallmann, P. Fintz, J.B. Nelson, D.E. Alburger P.G. Hansen, H.L. Nielsen, K. Wilsky, Y.K. Agarwal, C.V.K. Baba, S.K. Bhattacherjee G.R. Hagee, R.C. Lange, J.T. McCarty P.V. Hewka, C.H. Holbrow, R. Middleton S. Hinds, J.H. Bjerregaard, O. Hansen, O. Nathan S.T. Hsue, L.M. Langer, E.H. Spejewski, S.M. Tang J.E. Kitching, M.W. Johns T. Lauritsen, F. Ajzenberg-Selove A.C. Li, I.L. Preiss, P.M. Strudler, D.A. Bromley E.P. Mazets, Y.V. Sergeenkov I. Mahunka, L. Tron, T. Fenyes, V.A. Khalkin C.C. McMullen, K. Fritze, R.H. Tomlinson C.F. Moore, P. Richard, C.E. Watson, D. Robson, J.D. Fox E. Newman, J.C. Hiebert, B. Zeidman A.E. Norris, G. Friedlander, E.M. Franz B. Nyman, A. Johansson, C. Bergman, G. Backstrom P.B. Parks, P.M. Beard, E.G. Bilpuch, H.W. Newson H. Pettersson, G. Backstrom, C. Bergman F.T. Porter, M.S. Freedman, F. Wagner,Jr., K.A. Orlandini S.N. Qaim P.V. Rao, B. Crasemann W. Reichart, H.H. Staub, H. Stussi, F. Zamboni Research-Group, Combined Radioactivity Group LRL-LASL-UCRLANL P. Riehs G. Rickards, B.E. Bonner, G.C. Phillips D. Schwalm, B. Povh F.J. Schima R.K. Sheline, C.E. Watson, B.P. Maier, U. Gruber, R.H. Koch, O.W.B. Shult, H.T. Motz, E.T. Jurney, G.L. Struble, T. von Egidy, T. Elze, E. Bieber A. Siivola R.E. Snyder, G.B. Beard K. Valli, E.K. Hyde H. Vonach, H. Munzer, P. Hille W. Whaling K. Wien D.C. Williams, J.D. Knight, W.T. Leland G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1966Wi12 NUPHA 84, 609 595 I.R. Williams, K.S. Toth, T.H. Handley 1967 1967Ah02 PHRVA 164, 1537 1967Al08 1967An01 1967As02 1967Ba01 NUPAB NUPAB PHRVA NUPAB 98, 94, 158, 91, 323 289 1073 465 1967Ba15 1967Ba42 1967Ba43 1967Ba51 1967Ba.A 1967Be46 1967Bj01 1967Bj05 1967Ca18 1967Ch05 1967Da10 1967Dz02 PHRVA 155, YAFIA 5, YAFIA 5, CHDBA 265, P-Gatlinburg NUPAB 104, NUPAB 94, PHRVA 160, NUPAB 104, NUPAB 94, CJPHA 45, IANFA 31, 1319 241 518 863 261 241 457 889 35 417 2295 568 1967Er02 1967Es06 1967Fi04 1967Fl15 P-Winnipeg AAFPA 6, PYLBB 24, AENGA 22, 622 261 340 342 1967Fr02 NUPAB 94, 366 1967Gh01 1967Go22 1967Go25 1967Go32 PRLTA NUPAB PHYSA IANFA 18, 104, 35, 31, 401 497 479 1618 1967Gu11 1967Gu12 1967Ha03 1967Ha04 1967Hi01 1967Ho01 1967Ho12 1967Ho19 1967Hs01 1967Hu05 1967Il01 1967Ko01 1967Ma07 1967Mc07 IJPYA IJPYA NUPAB PYLBB PYLBB NUPAB PHRVA AFYSA NUPAB ZEPYA YAFIA NUPAB NUPAB NUPAB 41, 41, 90, 24, 24, 90, 159, 36, 94, 203, 6, 90, 95, 99, 633 667 573 95 89 545 1000 211 146 435 1117 558 632 6 1967Mc14 PRLTA 1967Mi02 NUPAB 1967Mi03 AENGA 19, 94, 22, 1442 261 90 264, 99, 100, 102, 330 652 45 406 1967Mo10 1967Mo12 1967Mo13 1967Mo17 CHDBA NUPAB NUPAB NUPAB I. Ahmad, A.M. Friedman, R.F. Barnes, R.K. Sjoblom, J. Milsted, P.R. Fields A.M. Aldridge, H.S. Plendl, J.P. Aldridge,III S. Antman, H. Pettersson, A. Suarez F. Asaro, I. Perlman V.A. Balalaev, B.S. Dzelepov, L.N. Moskvin, S.A. Shetopalova, N.A. Voinova P.D. Barnes, J.R. Comfort, C.D. Bockelman S.A. Baranov, I.G. Aliev, L.V. Chistyakov S.A. Baranov, M.K. Chadzhiev, V.M. Kulakov, V.M. Shatinskii G. Bastin-Scoffier C.A. Barnes, E.G. Adelsberger, D.C. Hensley, A.B. Macdonald G. Berzins, W.H. Kelly, G. Graeffe, W.B. Walters J.H. Bjerregaard, O. Hansen, O. Nathan, S. Hinds J.H. Bjerregaard, O. Hansen, G.R. Satchler M.J. Canty, R.D. Connor P. Charoenkwan, J.R. Richardson W.F. Davidson, C.R. Cothern, R.D. Connor B.S. Dzelepov, R.B. Ivanov, M.A. Mikhailov, L.N. Moskvin, O.M. Nazarenko, V.F. Radionov J.R. Erskine, A.M. Friedman, T.H. Braid, R.R. Chasman K. Eskola P.R. Fields, R.F. Barnes, R.K. Sjoblom, J. Milsted G.N. Flerov, S.M. Polikanov, V.L. Mikheev, V.I. Ilyushchenko, M.B. Miller, V.A. Shchegolev J. Frana, I. Rezanka, Z. Plajner, A. Spalek, J. Jursik, M. Vobecky, A. Mastalka, L. Funke, A. Graber, H. Sodan A. Ghiorso, T. Sikkeland, M.J. Nurmia P.F.A. Goudsmit, J. Konijn, F.W.N. De Boer P.F.A. Goudsmit N.A. Golovkov, K.Y. Gromov, N.A. Lebedev, B. Makhmudov, A.S. Rudnev, V.G. Chumin S.C. Gujrathi, S.K. Mukherjee S.C. Gujrathi, S.K. Mukherjee S.K. Haynes, M. Velinsky, L.J. Velinsky P.G. Hansen, H.L. Nielsen, K. Wilsky, J.G. Cuninghame S. Hinds, H. Marchant, R. Middleton J.L. Honsaker K.J. Hofstetter, P.J. Daly D.C. Hoffman, O.B. Michelsen, W.R. Daniels S.T. Hsue, M.U. Kim, S.M. Tang E. Huster, H. Verbeek V.I. Ilyushchenko, M.B. Miller, V.L. Mikheev, V.A. Shchegolev J. Konijn, E.W.A. Lingeman, S.A. De Wit A. Marelius, P. Sparrman, S.-E. Hagglund W.R. McMurray, M. Peisach, R. Pretorius, P. Van der Merwe, I.J. Van Heerden R.L. McGrath, J. Cerny, E. Norbeck R.G. Miller, R.W. Kavanagh V.L. Mikheev, V.I. Ilyushchenko, M.B. Miller, S.M. Polikanov, G.N. Flerov, Y.P. Kharitonov E. Monnand, J.A. Pinston, R. Henck J.A. Moragues, P. Reyes-Suter, T. Suter Y. Motavalledi-Nobar, J. Berthier, J. Blachot, R. Henck W.G. Mourad, K.E. Nielsen, M. Petrilak 596 1967Mu16 1967Ni02 1967Nu01 1967Oa01 1967Od01 1967Pa04 1967Pa08 1967Pi03 1967Ra13 1967Sc01 1967Sc10 1967Sc15 1967Sc26 1967Sc30 1967Si02 1967Si07 1967Si08 1967Si09 1967Sp03 1967Sp06 1967Sp08 1967Sp09 1967St30 1967Ti04 1967Tr06 1967Va14 1967Va17 1967Va20 1967Va22 1967Va23 1967Vo05 1967Vr04 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 PHRVA 159, NUPAB 93, PYLBB 26, PYLBB 24, PHRVA 158, JOPQA 28, CJPHA 45, PHRVA 159, NUPAB 99, NUPAB 96, ZEPYA 203, NUPAB 101, NUPAB 104, PHRVA 164, NUPAB 92, PYLBB 24, PYLBB 24, NUPAB 101, PHRVA 155, NUPAB 99, ZEPYA 204, P-Winnipeg P-Winnipeg NUPAB 100, NUPAB 97, NUPAB 99, PHRVA 159, JINCA 29, PHRVA 161, NUPAB 102, PHRVA 164, IANFA 31, 1967Wa09 NUPAB 1967Wa23 PHRVA 1967Wi19 NUIMA 97, 164, 52, 1039 385 78 142 957 388 2621 939 547 337 289 177 692 1548 475 331 333 129 1368 625 129 657 495 425 405 473 1013 2503 1284 369 1374 604 641 1545 77 G. Muehllehner, A.S. Poltorak, W.C. Parkinson, R.H. Bassel H.L. Nielsen, K. Wilsky, J. Żylicz, G. Sorensen M. Nurmia, T. Sikkeland, R. Silva, A. Ghiorso N.S. Oakey, R.D. McFarlane F.H. O’Donnel, C.P. Browne P. Paris J.J.H. Park, P. Christmas W.R. Pierson, K. Rengan R.C. Ragaini, G.E. Gordon, W.B. Walters S.O. Schriber, M.W. Johns G. Schulz G. Schulte G. Schulz, K. Ziegler O.W.B. Schult, W.R. Kane, M.A.J. Mariscotti, J.M. Simic A. Siivola T. Sikkeland, A. Ghiorso T. Sikkeland, A. Ghiorso, J. Maly, M.J. Nurmia A. Siivola R.R. Spencer, K.T. Faler E.H. Spejewski, J.B. Willett A. Spalek, I. Rezanka, J. Frana, A. Mastalka A. Sperduto H.H. Staub E. Tielsch-Cassel W. Treytl, K. Valli J. Van Klinken, L.M. Taff K. Valli, M.J. Nurmia, E.K. Hyde K. Valli, E.K. Hyde, W. Treytl K. Valli, W. Treytl, E.K. Hyde L. Van Neste, R. Coussement, J.P. Deutsch D. Von Ehrenstein, J.P. Schiffer J. Vrzal, K.Y. Gromov, J. Liptak, F. Molnar, V.A. Morozov, J. Urbanets, V.G. Chumin A.H. Wapstra T.E. Ward, H. Ihochi, M. Karras, J.L. Meason J.B. Willet, E.H. Spejewski 1968 1968Ab14 IANFA 32, 749 1968Ab17 IANFA 32, 793 1968Ad03 1968Ad08 1968Ah01 1968An03 1968An11 1968Au04 1968Ba25 1968Ba53 1968Ba73 1968Ba.A 1968Be02 1968Be06 1968Be21 1968Be35 1968Be.A 1968Bu02 JPAGB APPOA NUPAB NUPAB NUPAB NUPAB YAFIA YAFIA JOPQS PrvCom NUPAB NUPAB NUPAB ZEPYA BAPSA PHRVA 1, 34, 119, 110, 121, 116, 7, 7, 1,C1 549 529 27 289 337 14 727 1153 181 Rytz 296 382 433 229 1430 1096 106, 108, 121, 216, 13, 166, A.A. Abdurazakov, J. Vrzal, K. Ya. Gromov, Zh. T. Zhelev, V.G. Kalinnikov, J. Liptak, S.K. Li, F.N. Mukhtasimov, U.K. Nazarov, J. Urbanets L.N. Abesalashvili, K.Y. Gromov, Z.T. Zhelev, V.G. Kalinnikov, J. Liptak, U.K. Nazarov, J. Urbanets J.M. Adams, A. Adams, J.M. Calvert B. Adamowicz, Z. Moroz, Z. Preibisz, A. Zglinski I. Ahmad, A.M. Friedman, J.P. Unik S. Antman, H. Petterson, Y. Grunditz S. Andre, P. Liaud R.L. Auble, J.B. Ball, C.B. Fulmer S.A. Baranov, V.M. Kulakov, V.M. Shatinskii I. Bacso, D.D. Bogdanov, S. Barocsy, V.A. Karnaukhov, L.A. Petrov G. Bastin, C.F. Leang, R.J. Walen G. Bastin, C.F. Leang, R.J. Walen J.E. Benn, E.B. Dally, H.H. Muller, R.E. Pixley, H.H. Staub, H. Winkler H. Beekhuis, R.J. Van Duinen C.E. Bemis,Jr., J. Halperin E. Beck, H. Daniel M.J. Bennet, R.K. Sheline G.W. Butler, J. Cerny, S.W. Cosper, R.L. McGrath G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1968Ch20 1968Ch.A 1968Co22 1968Da02 1968Da09 1968Da13 1968De27 1968En01 1968Et01 1968Fi01 1968Fi04 1968Fu07 NUPAB PrvCom NUPAB NUPAB PHRVA NUPAB ZEPYA NUPAB PHRVA NUPAB PHRVA NUPAB 119, AHW 117, 107, 172, 112, 216, 107, 168, 111, 173, 118, 305 May 449 569 1176 241 103 305 1249 338 1078 97 1968Go34 1968Go.A 1968Go.B APPOA BAPSA P-Dubna 34, 13, 511 1452 54 1968Go.C 1968Gr09 1968Ha14 1968Ho10 1968Ho13 1968Hs01 1968Hs02 1968Ja11 1968La18 1968Le07 1968Mc09 1968Mc10 1968Mi08 1968Mo21 1968My.A 1968Pa03 1968Pe01 1968Pi03 1968Re12 1968Sa09 P-Dubna NUPAB 113, NUPAB 113, JOPQA 29, NUPAB 115, NUPAB 109, NUPAB 117, AFYSA 37, PHRVA 175, CHDBA 266, PHRVA 172, PHRVA 171, NUPAB 119, PHRVA 175, P-Debreccen NUPAB 110, NUPAB 108, JOPQA 29, JINCA 30, NUPAB 118, 27 353 206 138 225 423 686 585 1507 629 1253 1254 609 1516 102 674 124 257 2887 409 1968Sa13 1968Sc04 1968Sc14 1968Sh12 1968Si01 1968Sn01 1968Su02 1968Tr07 1968Va04 1968Va08 1968Va17 1968Va18 1968Vi01 1968Vi05 1968We02 1968Wh03 1968Wi25 1968Wo02 1968Ze04 1968Zh04 NUPAB PHRVA ZEPYA PHRVA NUPAB NUPAB PRLTA ZENAA PHRVA ATKOA PHYSA PHRVA PYLBB IANFA NUPAB NUIMA ATKEA NUPAB APASA IANFA 65 1212 282 1108 231 581 237 2127 1094 27 253 1377 285 1625 561 70 383 156 31 1610 121, 166, 217, 170, 109, 113, 21, 23, 167, 10, 40, 176, 26, 32, 109, 66, 13, 112, 27, 32, 597 R. Chapman, S. Hinds, A.E. Macgregor R.E. Chrien M. Conjeaud, S. Harar, Y. Cassagnou W.R. Daniels, D.C. Hoffman, F.O. Lawrence, C.J. Orth J.M. D’Auria, H. Bakhru, J.C. Preiss W.R. Daniels, F.O. Lawrence, D.C. Hoffman I. Dernedde G.A.P. Engelbertink, H. Lindeman, M.J.N. Jacobs R.C. Etherton, L.M. Beyer, W.H. Kelly, D.J. Horen E. Fincke, U. Jahnke H.J. Fischbeck L. Funcke, W. Andrejtscheff, H. Graber, U. Hagemann, K.-H. Kaun, P. Kemnitz, W. Meiling, H. Sodan, F. Stary, G. Winter M. Gonsior, G.I. Lizurei, G. Nevodnichanskii, A.V. Potempa K.P. Gopinathan, W. Rubinson N.A. Golovkov, R.B. Ivanov, Y.V. Norseev, So Ki Kvan, V.A. Khalkin, V.G. Shumin N.A. Golovkov, S.V. Khvan, V.G. Chumin T.B. Grandy, W.J. McDonald, W.K. Dawson, G.C. Neilson R.L. Hahn, M.F. Roche, K.S. Toth J.C. Hocquenghem, S. Andre, P. Liaud R.W. Hoff, J.E. Evans, E.K. Hulet, R.J. Dupzyk, B.J. Qualheim S.T. Hsue, M.U. Kim, L.M. Langer, E.H. Spejewski S.T. Hsue, M.U. Kim, L.M. Langer, W.F. Piel, E.H. Spejewski A. Jasinski, C.J. Herrlander I.M. Ladenbauer-Bellis, H. Bakhru C.F. Leang, G. Bastin-Scoffier L.D. McIsaac W.J. McDonald, J.T. Sample, D.M. Sheppard, G.M. Stinson, K.W. Jon W. Michaelis, F. Weller, H. Schmidt, G. Markus, U. Fanger P.A. Moore, P.J. Riley, C.M. Jones, M.D. Mancusi, J.L. Foster,Jr. B. Mysek, Z. Sujkowski, B. Kotlinska B. Parsa, G.E. Gordon, W.B. Walters H. Petterson, S. Antman, Y. Grunditz R.A. Pinston, E. Monnand, A. Moussa K. Rengan, H.C. Griffin R. Santo, R. Stock, J.H. Bjerregaard, O. Hansen, O. Nathan, R. Chapman, S. Hinds C. Samour, H.E. Jackson, J. Julien, A. Bloch, C. Lopata, J. Morgenstern D. Schroeer, P.S. Jastram W.D. Schmidt-Ott, W. Weirauch, F. Smend, H. Langhoff, D.G. Foller E.B. Shera, M.E. Bunker, R.K. Sheline, S.H. Vegors A. Siivola R.E. Snyder, G.B. Beard A.W. Sunyar, G. Scharff-Goldhaber, M. McKeown N. Trautmann, R. Denig, N. Karfeel, G. Herrmann K. Valli, W.J. Treytl, E.K. Hyde E. Vatai, K. Hohmuth H. Van Krugten, E.W. Koopmans K. Valli, E.K. Hyde G.B. Vingiani, G. Chilosi, W. Bruynesteyn V.D. Vitman, B.S. Dzelepov, A.I. Medvedev H. Wenniger, J. Stiewe, H. Leutz D.H. White, D.J. Groves, R.E. Birket P. Wille J.L. Wolfson, A.J. Collier H. Zemann, D. Zemrad Zh. Zhelev, V.G. Kalinnikov, J. Liptak, L.K. Peker 598 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1969 1969Aj03 1969An18 1969Ar23 1969Ar.A 1969Ba57 1969Be06 1969Be74 1969Bj01 1969Bl01 1969Bl03 1969Bo11 1969Bo48 1969Bu05 1969Bu.A 1969Ch18 PHRVA PYLBB IANFA P-Studsvik YAFIA JINCA NUIMA NUPAB PRLTA NUPAB NUPAB NUIMA PHRVA P-Yerevan PYLBB 188, 30, 33, 1813 160 1218 10, 31, 76, 131, 22, 123, 130, 72, 179, 29, 1110 599 77 481 470 129 195 40 1113 71 652 1969Co03 1969Da15 1969Fr01 1969Gh01 1969Go23 NUPAB PHRVA NUPAB PRLTA IANFA 129, 181, 127, 22, 33, 10 1618 33 1317 1622 1969Gr08 1969Gr24 1969Gr28 1969Ha11 1969Ha32 1969Ha44 1969Ho10 1969Jo07 1969Ka06 1969Ki16 1969Kl06 1969Ku03 1969Ku07 1969La11 NUPAB NUPAB CHDBA NUPAB PHRVA NUPAB NUPAB PHYSA JUPSA YAFIA ZEPYA ZEPYA NUPAB PHRVA 131, 136, 269, 127, 182, 136, 131, 42, 26, 10, 225, 222, 133, 178, 180 513 652 71 1329 414 551 303 1071 1105 364 144 554 1919 1969La15 1969La33 1969Le05 1969Le.A 1969Mi10 1969Mo16 1969Na03 1969Na05 1969Na11 1969Oh01 1969Ov01 1969Ph01 1969Ph03 1969Pi08 1969Ra24 1969Re04 1969St02 1969St07 1969Te01 PHRVA PHRVA NUPAB Th.-Paris PHRVA NUPAB PHRVA NUPAB NUPAB PHRVA NUIMA NUPAB RRALA NUPAB NUPAB PHYSA PHRVA PHRVA PHRVA 180, 187, 135, 1015 1739 36 177, 134, 178, 134, 137, 177, 68, 135, 1, 133, 138, 40, 178, 178, 177, 1455 321 1968 433 467 1695 61 116 351 124 49 567 2024 1789 1595 F. Ajzenberg-Selove S. Andre, P. Liaud, F. Perales, S.Y. van der Werf R. Arlt, Z. Malek, G. Musiol, G. Pfrepper, H. Strusny S.E. Arnell, R. Hardell, O. Skeppstedt, E. Wallander S.A. Baranov, V.M. Shatinskii, V.M. Kulakov C.E. Bemis,Jr., J. Halperin, R. Eby E. Beck J.H. Bjerregaard, O. Hansen, O. Nathan, R. Chapman, S. Hinds A.G. Blair, J.G. Beery, E.R. Flynn R. Bloch, T. Knellwolf, R.E. Pixley M. Bormann, B. Lammers H.M.W. Booij, E.A. Van Hoek, J. Blok D.L. Bushnell, R.P. Chaturvedi, R.K. Smither V.R. Burmistrov, B.G. Kiselev J. Chaumont, E. Roeckl, Y. Nir-El, C. Thibault-Philippe, R. Klapisch, R. Bernas M. Conjeaud, S. Harar, E. Thuriere J.W. Dawson, R.K. Sheline, E.T. Jurney A.M. Friedman, I. Ahmad, J. Milsted, D.W. Engelkemeir A. Ghiorso, M. Nurmia, J. Harris, K. Eskola, P. Eskola N.A. Golovkov, S. Guetch, B.S. Dzelepov, Yu. V. Norseev, V.A. Chalkin, V.G. Shumin H. Gruppelaar, A.M.F. Op den Kamp, A.M.J. Spits A. Graue, J.R. Lien, S. Royrvik, O.J. Aaroy, W.H. Moore B. Grennberg, A. Rytz O. Hansen, O. Nathan, R. Chapman, S. Hinds R.L. Hahn, M.F. Roche, K.S. Toth P.E. Haustein, A.F. Voigt D.C. Hoffman, F.O. Lawrence, W.R. Daniels H.W. Jongsma, B. Bengtsson, G.H. Dulfer, H. Verheul T. Katoh, T. Morii, H. Inoue, Y. Yoshizawa, H. Gotoh, E. Sakai B.G. Kiselev, V.R. Burmistrov J. Kloppenburg E. Kuhlmann, K.E.G. Lobner T. Kuroyanagi, T. Tamura R.G. Lanier, R.K. Sheline, H.F. Mahlein, T. von Egidy, W. Kaiser, H.R. Koch, U. Gruber, B.P.K. Maier, O.W.B. Schult, D.W. Hafemeister, E.B. Shera I.M. Ladenbauer-Bellis, H. Bakhru I.M. Ladenbauer-Bellis, H. Bakhru, A. Luzzati C.M. Lederer, J.M. Jaklevic, S.G. Prussin C.F. Leang R.C. Minehart, L. Coulson, W.F. Grubb,III, K. Ziock E. Monnand, J. Blachot, A. Moussa T. Nagarajan, M. Ravindranath, K.V. Reddy, S. Janananda T. Nagarajan, M. Ravindranath, K.V. Reddy T. Nagarajan, M. Ravindranath, K.V. Reddy H. Ohnuma, J.R. Erskine, J.A. Nolen,Jr., J.P. Schiffer, P.G. Roos J.C. Overley, P.D. Parker, D.A. Bromley M.E. Phelps, D.G. Sarantes A. Phillippe, C. Ballaux, R. Dams, F. Adams J.A. Pinston, F. Schussler, A. Moussa S. Ray, J.N. Mo, S. Murzynski, S.K. Mark E.R. Reddingius, H. Postma R.H. Stokes, P.G. Young R.H. Stokes, P.G. Young J. Tenenbaum, R. Moreh, Y. Wand, B. Arad, G. Ben-David G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1969Tj01 1969Va06 1969Va17 1969Wa15 1969Wa19 1969Wa.A 1969Ya02 KDVSA 37, NUPAB 130, NUPAB 134, JINCA 31, PHRVA 185, UCRL-18667 NUPAB 130, #7 586 215 2679 1439 54 456 599 P.O. Tjom, B. Elbek J.M. Vara, R. Gaeta S.Y. Van der Werf, H. De Waard, H. Beekhuis T.E. Ward, P.H. Pile, P.K. Kuroda J. Walinga, J.C. Manthuruthil, C.P. Poirier D. Ward, F.S. Stephens, R.M. Diamond T. Yamazaki, J. Sato 1970 1970Ab05 1970Af.A NUPAB 151, JINR-P6-4972 187 1970Ag01 1970Ag03 1970Ah01 1970Aj01 1970Ak02 IANFA IANFA NUPAB NUPAB IANFA 34, 34, 140, 142, 34, 397 201 141 641 777 1970An06 1970An14 ZEPYA NUPAB 234, 153, 455 17 1970Ar04 1970As08 1970Ba61 1970Be24 1970Be.A 1970Bo13 1970Bo19 1970Bo29 1970Bu19 1970Ca01 1970Ce04 1970Ch02 1970Ch28 1970Ch29 1970Ch.A 1970Cr04 1970De39 1970Do.A 1970Ei02 1970Er03 1970Es02 1970Es03 1970Fa06 1970Fi03 1970Fi12 1970Fi.A IANFA 34, NUPAB 158, NUPAB 158, PRVCA 2, P-Leysin PRVCA 2, JINCA 32, PRVCA 2, PRVCA 2, NUPAB 141, PYLBB 33, NUPAB 142, NUPAB 156, JOPQA 31, BAPSA 15, NUPAB 153, NUPAB 158, COO-1779-49 NUPAB 141, NUPAB 146, PRVCA 2, PYLBB 33, NUPAB 146, NUPAB 144, NUPAB 154, CERN-70-29 409 146 337 297 353 1841 2805 1951 1513 97 284 634 276 737 87 413 166 47 289 43 1058 287 549 67 407 1970Fl05 1970Fl08 1970Fo09 1970Ga32 1970Ge03 1970Gh01 1970Gh02 1970Go11 1970Go20 NUPAB NUPAB PYLBB IANFA PRVCA PYLBB PRLTA PRVCA NUPAB 225 1 689 2048 1052 95 1498 1939 513 154, 157, 32, 34, 1, 32, 24, 1, 151, C. Abulaffio, J. Felsteiner, R. Kalish, B. Rosner, G. Vourvopoulos V.P. Afanasiev, M. Bocharova, N.A. Golovkov, I. Gromova, R.B. Ivanov, V.I. Kuzmin, Y.V. Norseev, V.G. Chumin V.A. Ageev, N.F. Mitrokhovich, A.I. Feoktistov V.A. Ageev, N.F. Mitrokhovich, A.I. Feoktistov I. Ahmad, R.K. Sjoblom, R.F. Barnes, E.P. Horwitz, P.R. Fields F. Ajzenberg-Selove, G. Igo A.I. Akhmadzhanov, R. Broda, V. Valyus, I. Zvolski, I. Molnar, Y. Stygen, V.I. Fominikh, A. Krynkevich, V.M. Tsupko-Sitnikov A. Antilla, M. Bister, E. Arminen M.L. Andersen, S.A. Andersen, O. Nathan, K.M. Bisgard, K. Gregersen, O. Hansen, S. Hinds, R. Chapman R. Arlt, G. Beyer, G. Musiol, L.K. Peker, G. Pfrepper, H. Strusny J. Ashkenazi, E. Friedman, D. Nir, J. Zioni R.K. Bardin, P.J. Gollon, J.D. Ullman, C.S. Wu R.W. Bercaw, R.E. Warner E. Beck, ISOLDE J. Borggreen, K. Valli, E.K. Hyde G.G.J. Boswell, T. McGee L.M. Bollinger, G.E. Thomas D.J. Buss, R.K. Smither P.E. Cavanagh, C.F. Coleman, A.G. Hardacre, G.A. Gard, J.F. Turner J. Cerny, J.E. Esterl, R.A. Gough, R.G. Sextro J.C. Chang, G. Schupp, R.R. Hurst A. Charvet, R. Duffait, A. Emsallem, R. Chéry A. Charvet, R. Duffait, A. Emsallem, R. Chéry R.E. Chrien, S. Bokharee, J.B. Garg F.P. Cranston, R.E. Birkett, D.H. White, J.A. Hughes F.W.N. De Boer, E.W.A. Lingeman, R. van Lieshout, R.A. Ricci R. Doebler (Also Thesis Michigan State University) J. Eidens, E. Roeckl, P. Armbruster B. Erlandson, A. Marcinkowski P. Eskola, K. Eskola, M. Nurmia, A. Ghiorso J.E. Esterl, J.C. Hardy, R.G. Sextro, J. Cerny U. Fanger, D. Heck, W. Michaelis, H. Ottmar, H. Schmidt, R. Gaeta E. Fincke, U. Jahnke, B. Schreiber, A. Weidinger P.R. Fields, I. Ahmad, R.F. Barnes, R.K. Sjoblom, E.P. Horwitz M. Finger, R. Foucher, J.P. Husson, J. Jastrzebski, A. Johnson, C. Sebille, R. Henck, J.M. Kuchly, R. Regal, P. Siffert, G. Astner, B.R. Erdal, E. Hagebo, A. Kjelberg, F. Munnich, P. Patzelt, E. Beck, H. Kugler E.R. Flynn, J.G. Beery, A.G. Blair D.G. Fleming, M. Blann, H.W. Fulbright, J.A. Robbins I. Fodor, I. Szentpetery, J. Szucz S. Gabrakov, Z. Zhelev, N.G. Zaitseva, I. Penev, S.S. Sabirov W. Gelletly, J.A. Moragues, M.A. Mariscotti, W.R. Kane A. Ghiorso, M. Nurmia, K. Eskola, P. Eskola A. Ghiorso, M. Nurmia, K. Eskola, J. Harris, P. Eskola D.R. Goosman, R.W. Kavanagh P.F.A. Goudsmit, J. Konijn, F.W.N. De Boer 600 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1970Go39 1970Go42 1970Gr46 1970Gu14 1970Ha18 NUIMA PRVCA KDVSA JINCA NUPAB 88, 2, 37, 32, 148, 197 2406 #12 3425 249 1970Ha21 1970Ha56 1970He14 1970Ka04 1970Ka22 1970Ke05 1970Ke08 1970Ki01 1970Kl05 1970Kn03 1970Le05 1970Li04 1970Lo02 1970Ma11 1970Ma19 1970Ma25 1970Ma31 1970Ma36 1970Mc03 1970Me11 1970Mi01 NUPAB PHSTB CJPHA NUPAB PRLTA P-Kyoto PRVCA NUPAB ZEPYA PRLTA YAFIA AFYSA NUPAB CJPHA NUPAB NUPAB NUPAB NUPAB NUPAB PRLTA NUPAB 158, 1, 48, 147, 25, 625 85 1040 120 953 2, 142, 238, 25, 11, 40, 152, 48, 147, 149, 151, 153, 145, 25, 143, 213 35 11 1210 483 197 463 2056 513 593 465 183 244 533 225 1970Mu15 1970Ob02 1970Oh05 1970Or.A 1970Pe04 1970Pi01 1970Ra14 1970Re02 1970Ro06 1970Ro07 1970Sc06 1970Si19 1970Sm.A 1970To07 1970To18 1970Va13 1970Va31 PRVCA 2, NUPAB 153, JUPSA 29, DASA-2570 ZEPYA 233, NUPAB 144, APAHA 28, PRVCA 1, PRVCA 1, NUPAB 147, ZEPYA 232, PRVCA 2, BAPSA 15, NUPAB 149, PRVCA 2, PRVCA 1, NUPAB 157, 655 593 1435 1970Wo05 NUPAB 1970Wo08 NUPAB 146, 152, 260 42 263 721 1761 235 398 1948 549 641 2309 2115 385 33 561 W. Goedbloed, S.C. Goverse, C.P. Gerner, A. Brinkman, J. Blok D.J. Gorman, F. Asaro T. Grotdal, K. Nybø, B. Elbek M.C. Gupta, R.D. MacFarlane P.G. Hansen, H.L. Nielsen, K. Wilsky, M. Alpsten, M. Finger, A. Lindahl, R.A. Naumann, J.-V. Kratz, G. Herrmann, O.B. Nielsen T. Hattula, S. Andre, F. Schussler, A. Moussa R. Hardell, C. Boer A.W. Herman, E.A. Heighway, J.D. McArthur M. Karras, T.E. Ward, H. Schoche W.R. Kane D.P. Kerr, K.T. Bainbridge K.W. Kemper, C.M. McKenna, J.W. Nelson H.J. Kim, R.L. Robinson, C.H. Jonnson, S. Raman H.V. Klapdor, K. Buchholz, F. Kaestner D.W. Kneff, H.W. Lefevre, G.U. Din V.N. Levkovskii, I.V. Kazachevskii H. Linusson, R. Hardell, S. Arnell W. Lourens, B.O. Ten Brink, A.H. Wapstra J.F. Mason, M.W. Johns E.S. Macias, J.P. Op den Beeck, W.B. Walters S. Maripuu S. Maripuu S. Maripuu W. McLatchie, S. Whineray, J.D. Macdougall, H.E. Duckworth R. Mendelson, G.J. Wozniak, A.D. Bacher, J.M. Loiseaux, J. Cerny W. Michaelis, F. Weller, U. Fanger, R. Gaeta, G. Markus, H. Ottmar, H. Schmidt T.J. Mulligan, R.K. Sheline, M.E. Bunker, E.T. Jurney B.J. O’Brien, G.E. Coote S. Ohya, T. Tamura, S. Kageyama V.J. Orphan, N.C. Rasmussen, T.L. Harper H. Petterson, S. Antman, Y. Grunditz J.A. Pinston, F. Schussler K. Raichev, L. Tron P.L. Reeder A.A. Rollefson, P.F. Jones, R.J. Shea M.D. Roush, L.A. West, J.B. Marion W.D. Schmidt-Ott R.J. Silva R.K. Smither, D.J. Bush, D.L. Bushnell D.F. Torgerson, R.D. Macfarlane D.F. Torgerson, R.D. Macfarlane K. Valli, E.K. Hyde, J. Borggreen J. Van Klinken, L.M. Taff, H.T. Dijkstra, A.H. De Haan, H. Hanson, B.K.S. Koene, J.W. Maring, J.J. Schuurman, F.B. Yano F.K. Wohn, W.L. Talbert F.K. Wohn, W.L. Talbert,Jr., J.K. Halbig 1971 1971Af05 IANFA 35, 1618 1971Al01 1971Al14 1971Al22 1971Ar12 1971Ar23 1971Ar39 NUPAB PHSTB PHSTB NUPAB NUPAB PHSTB 161, 3, 3, 166, 169, 4, 209 55 105 241 209 89 V.P. Afanasiev, V.S. Buttsev, I.I. Gromova, V.G. Kalinnikov, N.A. Tikhonov G. Alenius, S.E. Arnell, C. Schale, E. Wallander G. Alenius, S.E. Arnell, C. Schale, E. Wallander G. Alenius, S.E. Arnell, C. Schale, E. Wallander S.E. Arnell, H. Linusson, Z. Sawa N.K. Aras, P. Fettweis, G. Chilosi, G.D. O’Kelley S.E. Arnell, R. Hardell, A. Hasselgren, C.G. Mattson, O. Skeppstedt G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1971Ba01 1971Ba08 1971Ba18 1971Ba43 1971BaB2 1971Be10 1971Be41 1971Bi.A 1971Bo01 1971Bo06 1971Ca19 1971Ch26 1971Da16 1971Da19 1971Da28 1971De52 1971Di03 1971Do18 1971Du02 1971Dz08 1971En01 1971Es01 1971Ev01 1971Fi01 1971Fo22 1971Fr03 1971Ge05 1971Gh01 1971Go01 1971Go18 1971Go35 NUPAB 160, PRVCA 3, NUPAB 164, PRVCA 4, YAFIA 14, PRVCA 3, NUPAB 171, UCRL-51060 NUPAB 160, NUPAB 162, PRVCA 4, JOPQA 32, NUPAB 170, PRVCA 4, NUPAB 178, RMXFA 20, PRLTA 26, PYLBB 37, PRVCA 3, IANFA 35, PRVCA 3, PRVCA 4, CJPHA 49, NUPAB 160, PYLBB 36, NUPAB 165, PRVCA 3, PRVCA 4, PRVCA 3, PRVCA 4, IANFA 35, 225 937 552 196 1101 1294 113 1971Gr17 1971Gr22 1971Gr28 1971Gr37 1971Gr42 1971Gr.A 1971Gu02 1971Gu18 1971Gu.A 1971Ha03 1971He13 1971Ho01 1971Ho07 1971Ho16 1971Hu03 MTRGA 7, YAFIA 13, YAFIA 13, YAFIA 14, IANFA 35, P-Moscow NUPAB 161, NUPAB 172, Th.-Strasbourg NUPAB 160, NUPAB 168, NUPAB 163, PYLBB 34, NUPAB 169, PRLTA 26, 65 681 1129 473 1644 70 410 353 1971Ib01 1971Ka42 1971Ke07 1971Ke21 1971Ki01 1971Ki15 1971Le21 1971Ma45 PHSTB APOBB PRVCA NUPAB NUPAB YAFIA NUPAB NUPAB 4, 2, 4, 176, 170, 14, 170, 172, 161 423 1431 449 187 249 115 298 1971Ma47 NUPAB 1971Mo01 PRVCA 174, 3, 343 438 337 407 130 359 253 919 172 17 1037 173 1391 2249 180 632 402 460 334 625 1678 1850 746 1800 2272 445 449 277 591 641 523 601 J.B. Ball H. Bakhru, I.M. Ladenbauer-Bellis, I. Rezanka F. Bazan, R.A. Meyer J.B. Ball, R.L. Auble, P.G. Roos S.A. Baranov, V.M. Shatinskii, V.M. Kulakov F.M. Bernthal, J.O. Rasmussen, J.M. Hollander M.J. Bennet, R.K. Sheline, Y. Shida R.E. Birkett H.M.W. Booij, E.A. Van Hoek, H. Van der Molen, W.F. Slot, J. Blok J. Borggreen, E.K. Hyde R.F. Casten, E.R. Flynn, O. Hansen, T.J. Mulligan A. Charvet, D.H. Phuoc, R. Duffait, A. Emsallem, R. Chery W. Darcey, R. Chapman, S. Hinds W.R. Daniels, D.C. Hoffman J.M. D’Auria, D. Ostrom, S.C. Gujrathi H. Del Castillo, R. Roos, A. Tejera, F. Alba P.F. Dittner, C.E. Bemis,Jr., D.C. Henley, R.J. Silva, C.D. Goodman W.E. Dorenbusch, J.B. Ball, R.L. Auble, J. Rapaport, T.A. Belote J.L. Dubbard, R.K. Sheline, J.B. Ball B.S. Dzelepov, A.G. Dmitriev, N.N. Zhukovskii G.A.P. Engelbertink, J.W. Olness K. Eskola, P. Eskola, M. Nurmia, A. Ghiorso F. Everling, G.L. Morgan, D.W. Miller, L.W. Seagondollar, P.W. Tillman,Jr. P.R. Fields, I. Ahmad, A.M. Friedman, J. Lerner, D.N. Metta B. Fogelberg, A. Backlin, T. Nagarajan A. Frana, A. Spalek, M. Fiser, A. Kolec W. Gelletly, W.R. Kane, D.R. MacKenzie A. Ghiorso, M. Nurmia, K. Eskola, P. Eskola D.J. Gorman, F. Asaro D.R. Goosman, K.W. Jones, E.K. Warburton, D.E. Alburger N.A. Golovkov, R.B. Ivanov, A. Kolaczkowski, Y.V. Norseev, V.G. Chumin B. Grennberg, A. Rytz L.V. Groshev, A.M. Demidov, V.F. Leonov, L.L. Sokolovskii L.V. Groshev, L.I. Govor, A.M. Demidov, A.S. Rachimov L.V. Groshev, A.M. Demidov, V.F. Leonov, L.L. Sokolovskii L.V. Groshev, A.M. Demidov, V.F. Leonov, L.L. Sokolovskii L.V. Groshev, V.N. Dvoretskii, A.M. Demidov S.C. Gujrathi, J.M. D’Auria S.C. Gujrathi, J.M. D’Auria G. Guillaume P.G. Hansen, B. Jonson, J. Żylicz, M. Alpsten, A. Appelqvist, G. Nyman R.G. Helmer, R.C. Greenwood, C.W. Reich P. Hornshøj, K. Wilsky, P.G. Hansen, A. Lindahl, O.B. Nielsen P. Hornshøj, K. Wilsky, P.G. Hansen, A. Lindahl, O.B. Nielsen R.W. Hoff, E.K. Hulet, R.J. Dupzyk, R.W. Lougheed, J.E. Evans E.K. Hulet, J.F. Wild, R.W. Lougheed, J.E. Evans, B.J. Qualheim, M. Nurmia, A. Ghiorso N. Ibrahiem, H. Pettersson R. Kaczarowski, W. Kurcewicz, A. Plochocki, J. Żylicz B.H. Ketelle, A.R. Brosi, J.R. van Hise R.L. Kernell, H.J. Kim, R.L. Robinson, C.H. Johnson C.H. King, P.R. Maurenzig, N. Stein, T.P. Cleary B.G. Kiselev, V.N. Levkovskiı̆, O.I. Artem’ev J.R. Leslie, W. McLatchie, C.F. Monahan, J.K. Thrasher P. Manfrass, H. Prade, M.R. Beitins, W.A. Bondarenko, N.D. Kramer, P.T. Prokofjew S. Matsuki, Y. Yoshida, M. Hyakutake, M. Matoba, S. Nakamura J.M. Mosher, R.W. Kavanagh, T.H. Tombrello 602 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1971Mo02 1971Mo03 1971My01 1971Na01 1971Na02 1971Or04 1971Ot01 1971Pl08 NUPAB PRLTA APOBB PRVCA PRVCA PRVCA NUPAB IANFA 161, 26, 2, 3, 3, 3, 164, 35, 228 854 441 247 254 2402 69 1569 1971Po.A 1971Pr03 1971Ra08 1971Ra35 1971Sm01 1971Sw01 1971Ta07 1971To01 1971To10 1971Tr03 1971Um03 1971We01 1971Wi04 1971Wi07 P-Legnaro NUPAB ZEPYA NUPAB PRVCA PRVCA PRVCA PRVCA PRVCA PRVCA NUPAB PRVCA PRVCA NUPAB 167, 243, 177, 4, 3, 4, 3, 4, 3, 169, 3, 3, 166, 375 667 105 307 22 259 517 854 2223 2205 109 1668 1199 661 1971Ya10 PYLBB 37, 369 J.M. Morton, W.G. Davies, W. McLatchie, W. Darcey, J.E. Kitching H.T. Motz, E.T. Jurney, E.B. Shera, R.K. Sheline B. Myslek, B. Pietrzek, Z. Sujkowski, J. Szcepankowski T. Nagarajan, M. Ravindranath, K.V. Reddy T. Nagarajan, M. Ravindranath, K.V. Reddy C.J. Orth, B.J. Dropesky, N.J. Freeman H. Ottmar, N.M. Ahmed, U. Fanger, D. Heck, W. Michaelis, H. Schmidt Z. Plajner, M. Vejs, I. Prochazka, A. Mashtalka, O. Voitishek, M. Gonusek, A. Kokesh C.P. Poirier, J.C. Manthuruthil R. Prieels, J.P. Deutsch F. Rauch J. Rapaport, W.E. Dorenbusch, T.A. Belote L.G. Smith D.L. Swindle, T.E. Ward, P.K. Kuroda K. Takehashi, D.L. Swindle, P.K. Kuroda K.S. Toth, R.L. Hahn K.S. Toth, R.L. Hahn, M.A. Ijaz G.F. Trentelman, B.M. Preedom, E. Kashy C.J. Umbarger, J.A. Robinson, R.R. Reece, R.C. Bearce C.V. Weiffenbach, R. Tickle B.H. Wildenthal, E. Newman, R.L. Auble D.H. Wilkinson, D.E. Alburger, D.R. Goosman, K.W. Jones, E.K. Warburton, G.T. Garvey, R.L. Williams K. Yagi, K. Sato, Y. Aoki 1972 1972Ah04 1972Ah07 1972Al19 1972Am01 1972Ba08 NUPAB JINCA NUPAB PRVCA CJPHA 186, 34, 186, 5, 50, 620 3335 209 270 34 1972Ba35 1972Ba91 PRLTA IANFA 28, 36, 1069 782 1972BaD2 1972Be12 1972Be44 1972Bo46 1972Bu05 1972Ca01 1972Ca07 1972Ca10 1972Ch11 1972Ch44 1972Co13 1972Cu07 1972Da.A 1972De47 1972Er05 1972Es03 1972Fa08 1972Fi.A 1972Fl17 1972Fo25 1972Ga27 1972Gi17 ZETFA 63, PRVCA 5, ZEPYA 252, PRVCA 6, JINCA 34, KDVSA 38, NUIMA 98, NUPAB 184, NUPAB 186, NUPAB 197, NUPAB 185, NUPAB 196, BAPSA 17, NUPAB 195, NUPAB 194, PRVCA 5, NUPAB 186, AnRpt MSUCL PYLBB 42, PHSTB 6, PRLTA 29, NUIMA 105, 375 1426 349 1322 1087 #13 432 357 603 490 644 593 71 385 449 942 545 28 49 309 958 179 I. Ahmad, R.K. Sjoblom, R.F. Barnes, F. Wagner,Jr., P.R. Fields I. Ahmad, R.F. Barnes, R.K. Sjoblom, P.R. Fields G. Alenius, S.E. Arnell, C. Schale, E. Wallander S. Amiel, H. Feldstein, M. Oron, E. Yellin R.C. Barber, R.L. Bishop, J.O. Meredith, F.C.G. Southon, P. Williams, H.E. Duckworth, P. van Rookhuyzen G.C. Ball, W.G. Davies, J.S. Forster, J.C. Hardy G.Y. Baier, V.S. Buttsev, K.Y. Gromov, V.G. Kalinnikov, K.O. Mortensen, G.L. Nilsson, N.A. Tikhonov S.A. Baranov, V.M. Shatinskii, V.M. Kulakov, Y.F. Radionov W. Benenson, J. Driesbach, I.D. Proctor, G.F. Trentelman, B.M. Preedom H. Behrens, M. Kobelt, W.G. Thies, H. Appel L.M. Bollinger, G.E. Thomas F.T. Bunus R.F. Casten, P. Kleinheinz, P.J. Daly, B. Elbek J.L. Campbell, L.A. McNellen R.F. Casten, E.R. Flynn, O. Hansen, T.J. Mulligan R. Chapman, W. McLatchie, J.E. Kitching A. Charvet, R. Chery, D.H. Phuoc, R. Duffait, A. Emsallem, G. Marguier W.F. Coetzee, M.A. Meyer, D. Reitmann J.C. Cunnane, R. Hochel, C.W. Yates, P.J. Daly C.N. Davids, D.L. Matthews, D. Whitmire P. Debenham, N.H. Hintz B.R. Erdal, L. Westgaard, J. Żylicz, E. Roeckl, ISOLDE K. Eskola L.C. Farwell, J.J. Kraushaar, H.W. Baer R.B. Firestone, K. Kosanke, W.C. McHarris, W.H. Kelly E.R. Flynn, J.D. Garrett I. Forsblom, T. Weckstrom, T. Sundius, G. Bergstrom, S. Forss, G. Wansen H. Gauvin, Y. Le Beyec, M. Lefort, N.T. Porile H.J. Gils, R. Lohken, W. Wiesner G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1972Go33 1972Go.A 1972Gr23 1972Gr34 1972Gr39 1972Ha74 1972He36 1972He.A 1972Ho18 1972Ho40 1972Hs01 1972Hu06 1972Ja.A CHDBA 275, 291 PrvCom 91Ry01 YAFIA 15, 625 IANFA 36, 833 PRVCA 6, 1756 NUPAB 198, 353 ZEPYA 255, 385 AnRpt Grenoble NUPAB 187, 599 NUPAB 194, 481 NUPAB 179, 80 NUPAB 189, 264 P-Teddington 236 1972Je02 1972Jo08 1972Ki06 1972Ko03 1972Ko50 1972La20 1972Lo26 1972Ma42 1972Ma.A 1972Mc25 1972Mi16 1972Mi26 1972Mo12 1972Mo33 NUPAB ZEPYA ZEPYA PRVCA NUPAB ZEPYA NUIMA PHSTB P-Budapest ZEPYA HPACA JUPSA PRVCA NUPAB 185, 251, 251, 5, 198, 253, 105, 5, 255, 45, 33, 5, 195, 209 425 93 568 73 16 453 58 90 335 93 1505 1678 192 1972Mu02 1972Mu09 1972Mu.A 1972Na04 1972Ne05 1972Pa02 1972Pi07 1972Ra39 1972Ri08 1972Sc08 1972Sh08 1972Sh13 PRVCA PRVCA BAPSA NCIAA NUPAB PRVCA ZEPYA NUPAB PRVCA ZEPYA NUPAB PRVCA 5, 6, 17, 8, 185, 5, 252, 197, 5, 249, 189, 6, 95 1802 557 305 213 485 206 129 2072 286 220 537 1972Sh.A 1972Si28 1972Sl03 1972Sv02 1972Sw01 1972Ta13 1972To05 1972To06 1972To07 1972Vi11 1972Wa04 1972Wa10 1972We.A 1972Wh02 1972Wh05 1972Zi02 PrvCom NDG NUPAB 193, NUPAB 186, PHSTB 5, NUPAB 185, ZEPYA 251, NUPAB 185, PRVCA 5, NUPAB 189, RAACA 17, JINCA 34, NUPAB 188, P-Teddington PRVCA 5, NUPAB 187, NUPAB 181, Jan 449 28 23 561 87 574 2060 609 213 13 129 94 513 12 465 603 J. Gorman, A. Rytz, H.V. Michel J. Gorman, A. Rytz L.V. Groshev, L.I. Govor, A.M. Demidov L.V. Groshev, L.I. Govor, A.M. Demidov M.B. Greenfield, C.R. Bingham, E. Newman, M.J. Saltmars A. Hasselgren A. Helppi, A. Pakkanen M. Hermen, A. Gizon also Thesis Grenoble 1971 P. Hornshøj, K. Wilsky, P.G. Hansen, B. Jonson, O.B. Nielsen G.A. Hokken, A.J.G. Hendricx, J. De Kogel T.H. Hsu, R. Fournier, B. Hird, J. Kroon, G.C. Ball, F. Ingebretsen F.R. Hudson, R.N. Glover A.A. Jaffe, G.A. Bissinger, S.M. Shafroth, T.A. White, T.G. Dzubay, F. Everling, D.W. Miller, D.A. Outlaw H.B. Jensen, H.B. Mak, C.A. Barnes H.W. Jongsma, R. Kamermans, H. Verheul A. Kiuru J.J. Kolata, W.W. Daehnick K. Komura, K. Sakamoto, S. Tanaka R. Lasijo, R.K. Sheline, R.D. Griffioen, J.L. Dubbard G.D. Lopez, G.E. Thomas C.G. Mattsson, S.E. Arnell, L. Jonsson P. Matusek, H. Ottmar, C. Weitkamp, H. Woods J.C. McGeorge, D.W. Nix, R.W. Fink, J.H. Landrum B. Michaud, J. Kern, L. Ribordy, L.A. Schaller K. Miyano, H. Nakharr, G. Gil R.A. Moyer E. Monnand, R. Brissot, L.C. Carraz, J. Crançon, R. Ristori, F. Schussler, A. Moussa T. Mukoyama, S. Shimizu T.J. Mulligan, E.R. Flynn, O. Hansen, R.F. Carsten, R.K. Sheline S.F. Mughabghab, G.W. Cole, R.E. Chrien, O.A. Wasson, M.R. Bhat T. Nagarajan, M. Ravindranath, K.V. Reddy A.V. Nero R.A. Paddock M. Piiparinen D. Rabenstein, D. Harrach, H. Vonach, G.G. Dussel, R.P.I. Perazzo F.A. Rickey, E.T. Jurney, H.C. Britt W.D. Schmidt-Ott, R.W. Fink R.E. Shamu, E.M. Bernstein, D. Blondin, J.J. Ramirez E.B. Shera, U. Gruber, B.P.K. Maier, H.R. Koch, O.W.B. Schult, R.G. Lanier, N. Onishi, R.K. Sheline E.B. Shera M. Singh, J.W. Sunier, R.M. Devries, G.E. Johnson W.F. Slot, G.H. Dulfer, H. Van der Molen, H. Verheul B. Svahn, C. Bergman, H. Petterson D.L. Swindle, N.A. Morcos, T.E. Ward, J.L. Meason O. Tannila, J. Kantele J.P. Torres, P. Paris K.S. Toth, R.L. Hahn, M.A. Ijaz, R.F. Walker,Jr. J.P. Torres, P. Paris, D. Lecouturier, P. Kilcher J. Visser, L. Lindner T.E. Ward, N.A. Morcos, P.K. Kuroda E. Wallander, E. Selin L. Westgaard, J. Żylicz, O.B. Nielsen, ISOLDE D.H. White, R.E. Birkett D.H. White, R.E. Howe J. Zioni, A.A. Jaffe, E. Friedman, N. Haik, R. Schreckman, D. Nir 604 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1973 1973Ah02 1973Ah04 1973Al20 PRVCA NUPAB IANFA 8, 208, 37, 737 287 1035 1973Ba34 PRLTA 31, 395 1973Ba35 1973Ba56 1973Ba72 1973Be09 1973Be23 1973Be33 JPAGB PRVCA NUPAB PYLBB PRVCA PRLTA 6, 8, 217, 43, 8, 31, 1011 1438 116 117 210 641 1973Bo13 1973Bo20 1973Br06 1973Br12 1973Bu17 PRVCA YAFIA PRVCA PRVCA IANFA 7, 17, 7, 7, 37, 1686 457 1545 2545 938 1973Bu21 1973Ca10 1973Ch24 1973Cl12 IANFA NUPAB JINCA NUPAB 37, 205, 35, 215, 1024 121 3061 429 1973Da01 1973Da05 1973Da22 1973De16 1973De22 1973Dr10 PRVCA CJPHA PRVCA PRVCA ZEPYA AENGA 7, 51, 8, 7, 260, 35, 122 686 1029 2131 75 279 1973Ea01 1973Es01 1973Es02 1973Fi06 1973Go05 1973Go29 1973Go33 1973Go39 1973Go40 1973Ha02 NUPAB PRVCA PHFEA NUPAB NUPAB CHDBA PRVCA CHDBA NUPAB NUPAB 208, 7, 8, 208, 201, 276, 8, 277, 217, 199, 119 280 357 269 326 669 1324 29 159 560 1973Ha11 1973Ha32 NUPAB PRLTA 203, 31, 532 323 1973Ho09 1973Ja06 1973Ja10 1973Jo11 1973Ka07 1973Ka23 1973Ki11 1973Ko03 1973Ko10 1973Ku09 NUPAB ZEPYA ZEPYA PHSTB JUPSA PRVCA NUPAB PRVCA NUPAB JOPQA 211, 258, 261, 8, 34, 8, 213, 7, 204, 34, 165 337 95 99 857 414 61 404 185 159 1973Mc04 PRVCA 7, 2097 I. Ahmad, J. Milsted, R.K. Sjoblom, J. Lerner, P.R. Fields I. Ahmad, H. Diamond, J.M. Isted, J. Lerner, R.K. Sjoblom V.S. Aleksandrov, B.S. Dzelepov, A.I. Medvedev, V.E. Ter-Nersesyants, I.F. Uchevatkin, S.A. Shestopalova G.C. Ball, J.G. Costa, W.G. Davies, J.S. Forster, J.C. Hardy, A.B. McDonald D.G. Barnes, J.M. Calvert, T. Toy J.B. Ball, J.J. Pinajian, J.S. Larsen, A.C. Rester B.B. Back, E.R. Flynn, O. Hansen, R.F. Casten, J.D. Garrett W. Benenson, E. Kashy, I.D. Proctor, B.M. Preedom W. Benenson, E. Kashy, I.D. Proctor C.E. Bemis,Jr., R.J. Silva, D.C. Hensley, O.L. Keller,Jr., J.R. Tarrant, L.D. Hunt, P.F. Dittner, R.L. Hahn, C.D. Goodman W.W. Bowman, D.R. Haenni, T.T. Sugihara D.D. Bogdanov, V.A. Karnaukhov, L.A. Petrov R.A. Britten, W.H. Johnson E. Browne, F. Asaro V.S. Buttsev, K.Y. Gromov, V.G. Kalinnikov, V.A. Morozov, T.M. Muminov, A.B. Khalikulov V.S. Buttsev, K.Y. Gromov, V.G. Kalinnikov M.H. Cardoso, P.F.A. Goudsmit, J. Konijn K. Chayawattanangkur, G. Herrmann, N. Trautmann G.J. Clark, J.M. Freeman, D.C. Robinson, J.S. Ryder, W.E. Burcham, G.T.A. Squier C.N. Davids, D.R. Goosman J.M. D’Auria, R.D. Guy, S.C. Gujrathi C.N. Davids, D.R. Goosman J.H. Degnan, G.R. Rao F.W.N. De Boer, P.F.A. Goudsmit, B.J. Meyer, and PrvCom AHW V.B. Druin, Y.V. Lobanov, D.M. Nadkarni, Y.P. Kharitonov, Y.S. Korotkin, S.P. Tretyakova, V.I. Krashonkin D.A. Eastham, I.S. Grant P. Eskola P. Eskola, K. Eskola, M. Nurmia, A. Ghiorso P.R. Fields, I. Ahmad, R.F. Barnes, R.K. Sjoblom, W.C. McHarris S.C. Goverse, J. Van Pelt, J. Vandenberg, J.C. Klein, J. Blok D.J. Gorman, H.V. Michel, F. Asaro, A. Rytz D.R. Goosman, C.N. Davids, D.E. Alburger D.J. Gorman, A. Rytz J. Godart, A. Gizon S.I. Hayakawa, S.K. Mark, J.K.P. Lee, J.E. Kitching, G.C. Ball, W.G. Davies J.K. Halbig, F.K. Wohn, W.L. Talbert,Jr., J.J. Eitter O. Hausser, W. Witthuhn, T.K. Alexander, A.B. McDonald, J.C.D. Milton, A. Olin R. Hochel, P.J. Daly, K.J. Hofstetter U. Jäger, H. Münzel, G. Pfennig J.F.W. Jansen, A. Faas, W.J.B. Winter A. Johansson, B. Nyman K. Kawade, H. Yamamoto, K. Tsuchiya, T. Katoh N. Kaffrell K. Kimura R.L. Kozub, D.H. Youngblood S. Kochan, B. Rosner, I. Tserruya, R. Kalish W. Kurcewicz, K. Stryczniewicz, J. Żylicz, R. Broda, S. Chojnacki, W. Walus, I. Yutlandov J.R. McPherson, F. Gabbard G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1973Me09 1973Me28 1973Mo03 1973Mo18 1973Mo23 1973No09 1973Oe02 1973Ok.A 1973Oo01 1973Pr05 1973Ra13 1973Re03 1973Sc17 1973Sh.A 1973Si40 NUPAB IJMPD NUPAB JINCA PRVCA NUPAB ZEPYA PrvCom NUPAB JINCA PYLBB PRVCA PYLBB PrvCom NUPAB 204, 10, 202, 35, 8, 217, 259, NDG 213, 35, 44, 7, 44, NDG 216, 636 359 473 3659 1961 253 263 Aug 221 1057 255 1663 449 Jan 97 1973Sp06 1973To02 1973Va11 1973Ve08 1973Vi10 1973Wa18 1973Wi06 NUPAB PRVCA ZEPYA NUPAB NUPAB PRVCA PRLTA 215, 7, 259, 212, 217, 8, 30, 260 2010 45 493 372 340 866 1973Wo01 PRVCA 1973Ya02 NUPAB 7, 204, 160 33 605 B.J. Meyer, F.W.N. De Boer, P.F.A. Goudsmit J.O. Meredith, F.C.G. Southon, R.C. Barber, P. Williams, H.E. Duckworth M.A. Moinester, G. Finkel, J. Alster, P. Martin N.A. Morcos, W.D. James, D.E. Adams, P.K. Kuroda A. Moalem, B.H. Wildenthal T. Nomura, K. Hiruta, T. Inamura, M. Odera W. Oelert G.D. O’Kelley, C.F. Goeking, L.L. Collins,Sr. M.A. Oothoudt, N.M. Hintz I.L. Preiss, J.J. Labrecque S. Raman, H.J. Kim, T.A. Wakiewicz, M.J. Martin I. Rezanka, I.M. Ladenbauer-Bellis, T. Tamura, W.B. Jones, F.M. Bernthal H. Schmeing, J.C. Hardy, R.L. Graham, J.S. Geiger, K.P. Jackson E.B. Shera in NDS974 R.J. Silva, P.F. Dittner, M.L. Mallory, O.L. Keller, K. Eskola, P. Eskola, M. Nurmia, A. Ghiorso A.M.J. Spits, J.A. Akkermans K.S. Toth, R.L. Hahn, C.R. Bingham, M.A. Ijaz, R.F. Walker,Jr. S.Y. Van der Werf J. Vernotte, S. Galès, M. Langevin, J.M. Maison V.E. Viola,Jr., M.M. Minor, C.T. Roche T.E. Ward, Y.Y. Chu, J.B. Cunning K.H. Willcox, N.A. Jelley, G.J. Wozniak, R.B. Weisenmiller, H.L. Harney, J. Cerny F.K. Wohn, J.K. Halbig, W.L. Talbert,Jr., J.R. McConnel S.W. Yates, P.J. Daly, N.R. Johnson, N.K. Arras 1974 1974Aj01 1974An05 NUPAB IANFA 227, 38, 1 48 1974An22 IANFA 38, 1741 1974An23 IANFA 38, 1748 1974Ar27 1974Ba90 IANFA CJPHA 38, 52, 1569 2386 1974Be20 1974Bi08 1974Bo05 PRVCA PRVCA PRVCA 9, 10, 9, 2130 729 836 1974Bo26 1974Bu21 1974Bu22 1974By01 1974Ca.A 1974Ch17 1974Ch21 1974Co21 1974Co27 1974Co35 1974De09 1974De31 1974De47 NUIMA 117, IANFA 38, PRVCA 10, NUPAB 223, Th.-Amsterdam JPSLB 35, ZEPYA 267, CJPHA 52, PRVCA 10, NUPAB 233, NUPAB 225, CJPHA 52, NUPAB 236, 213 1566 2483 125 41 355 1215 1236 185 317 1416 349 F. Ajzenberg-Selove, T. Lauritsen N.M. Antoneva, A.V. Barkov, A.V. Zolotavin, P.P. Dmitriev, S.V. Kamynov, G.S. Katykhin, E.T. Kondrat, N.I. Krasnov, Y.N. Podkopayen, V.A. Sergienko, V.I. Fominikh N.M. Antoneva, A.V. Barkov, V.M. Vinogradov, A.V. Zolotavin, G.S. Katykhin, V.M. Makarov, A.G. Shablinskii N.M. Antoneva, A.V. Barkov, V.M. Vinogradov, A.V. Zolotavin, G.S. Katykhin, V.M. Makarov, A.G. Shablinskii R. Arlt, K.Y. Gromov, A. Latuszynski, K.G. Ortlepp, A. Jasinski R.C. Barber, J.W. Barnard, D.A. Burrel, J.O. Meredith, F.C.G. Southon, P. Williams, H.E. Duckworth W. Benenson, E. Kashy, D.H. Kong, A. Siou, A. Moalem, H. Nann P.K. Bindal, D.H. Youngblood, L. Kozun J.D. Bowman, A.M. Poskanzer, R.G. Korteling, G.W. ButlerJ.D. Bowman, A.M. PoskaJ.D. Bowman, A.M. Poskanzer, R.G. Korteling, G.W. Butlernzer, R.G. Korteling, G.W. Butler H.E. Bosch, J. Davidson, M.A. Fariolli, V. Silbergleit V.P. Burminskii, B.G. Kiselev, O.D. Kovrigin D.L. Bushnell, D.J. Buss, R.K. Smither T. Byrski, F.A. Beck, P. Engelstein M.H. Cardoso A. Charvet, R. Chery, R. Duffait A. Charvet, R. Chery, D.P. Phuoc, R. Duffait A.H. Colenbrander, T.J. Kennett J.R. Comfort, R.W. Finlay, C.M. McKenna, P.T. Debevec F. Corvi, M. Stefanon F.W.N. De Boer, P.F.A. Goudsmit, P. Koldewijn, B.J. Meyer P. Debenham, W.R. Falk, M. Canty F.W.N. De Boer, P.F.A. Goudsmit, B.J. Meijer, P. Koldewijn, J. Konijn, R. Beetz 606 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1974Di03 1974Di.A 1974Do09 1974Fl01 1974Fr01 1974Ge05 1974Gh04 PRVCA 10, P-Amsterdam NUPAB 229, PRVCA 9, PRVCA 9, PRVCA 9, PRLTA 33, 1974Gi09 1974Gl10 1974Go17 1974Go20 1974Gr11 1974Gr22 1974Gr29 1974Gr37 1974Gr41 1974Gu10 1974Ha02 1974Ho27 1974Hr01 1974Hu15 1974Ia01 1974Je01 1974Jo14 1974Ju.A 1974Ju.B 1974Ka05 1974Ke01 NUPAB 233, 81 AENGA 37, 78 PRVCA 10, 756 ZEPYA 269, 111 NUPAB 223, 66 PRVCA 10, 624 JINCA 36, 2409 NUIMA 121, 385 IANFA 38, 2499 YAFIA 19, 1167 PRVCA 9, 252 NUPAB 230, 380 NUPAB 219, 381 NUIMA 121, 307 CJPHA 52, 96 PRVCA 9, 2067 PRVCA 10, 2449 PrvCom 74AjLa PrvCom AHW ZEPYA 266, 21 NUPAB 221, 333 1974Ke13 1974Kn02 1974Ku01 1974Le02 1974Ma09 1974Me15 1974Mu10 1974Na07 1974Ne10 1974Ne14 1974No02 1974No07 1974Oe03 1974Po08 1974Pr15 1974Ra.A 1974Ro11 PRVCA PRVCA NUPAB PRVCA PRVCA YAFIA NUPAB PRVCA PRVCA ZEPYA PRVCA NUIMA NUPAB PRVCA IANFA P-Bombay ZEPYA 266, 1554 1467 201 1091 1633 437 437 1848 320 121 1168 189 413 803 2135 10 65 1974Ro16 1974Ro31 1974Ro44 1974Ru08 1974Sc02 1974Sc06 1974Sc19 1974Sc26 PRVCA PRVCA PRAMC NUIMA CJPHA ZEPYA PRVCA PRLTA 9, 10, 3, 120, 52, 266, 10, 33, 1801 1181 186 333 131 129 296 1343 1974Se05 PRLTA 33, 233 10, 9, 218, 9, 9, 19, 224, 9, 10, 270, 9, 115, 230, 10, 38, 1172 114 47 210 760 2363 1490 M. Diksie, L. Yaffe, D.G. Sarantites J.S. Dionisio, C. Vieu, V. Berg, C. Bourgeois G. Doukellis, C. McKenna, R. Finlay, J. Rappaport, H.J. Kim E.R. Flynn, J.D. Garrett A.M. Friedman, K. Katori, D. Albroght, J.P. Schiffer W. Gelletly, W.R. Kane, D.R. MacKenzie A. Ghiorso, J.M. Nitschke, J.R. Alonso, C.T. Alonso, M. Nurmia, G.T. Seaborg, E.K. Hulet, R.W. Lougheed S. Gilad, S. Cochavi, M.A. Moinester, J. Alster, M. Buenard, P. Nartin V.M. Glazov, R.I. Borisova, A.I. Shaviev D.R. Goosman, D.E. Alburger S.C. Goverse, J. Kuiper, J. Blok R.C. Greenwood, C.W. Reich R.D. Griffioen, R.K. Sheline B. Grapengiesser, E. Lund, G. Rudstam R.C. Greenwood, R.G. Helmer E.P. Grigorev, A.V. Zolotavin, S.V. Kaminov K. Gurach, A.P. Kabachenko, I.V. Kuznetsov, N.I. Tarantin J.C. Hardy, H. Schmeing, W. Benenson, G.M. Crawley, E. Kashy, H. Nann P. Hornshøj, P.G. Hansen, B. Jonson B. Hrastnik, H. Seyfarth, A.M. Hassan, W. Delang, P. Gottel E. Huenges, H. Vonach, J. Labetzki R. Iafigliola, S.C. Gujrathi, B.L. Tracy, J.K.P. Lee N.A. Jelley, K.H. Wilcox, R.B. Weisenmiller, G.J. Wozniak, J. Cerny P.L. Jolivette, J.D. Goss, G.L. Marolt, A.A. Rollefson, C.P. Browne E.T. Jurney E.T. Jurney N. Kaffrell, N. Trautmann, R. Denig J. Kern, G. Mauron, B. Michaud, K. Schreckenbach, T. von Egidy, W. Mampe, H.R. Koch, H.A. Baader, D. Breitig, U. Gruber J. Kern, D. Duc J.D. Knight, C.J. Orth, W.T. Leland, A.B. Tucker I. Kumabe, S. Matsuki, S. Nakamura, M. Hyakutake, M. Matoba, T. Sato Y. Le Beyec, M. Lefort, J. Livet, N.T. Porile, A. Siivola R.G. Markham, H.W. Fulbright R.J. Metskvarishvili, Z.N. Miminoshvili, M.A. Elizbarashvili F. Münnich, D. Lode, H. Schrader, A. Hoglund, W. Pessara H. Nann, W. Benenson, E. Kashy, P. Turek K. Neubeck, H. Schober, H. Waffler W. Neumann, E. Huster T. Nomura, K. Hiruta, M. Yoshie, O. Hashimoto J.A. Nolen,Jr., G. Hamilton, E. Kashy, D. Proctor W. Oelert, G. Lindstrom, V. Riech F.T. Porter, I. Ahmad, M.S. Freedman, J. Milsted, A.M. Friedman P.T. Prokofev, L.I. Simonov C.N. Rao, B.M. Rao, P.M. Rao, K.V. Reddy E. Roeckl, D. Lode, K. Bächmann, B. Neidhart, G.K. Wolf, W. Lauppe, N. Kaffrell, P. Patzelt R.G.H. Robertson, S.M. Austin E. Roeckl, P.F. Dittner, C. Détraz, R. Klapisch, C. Thibault, C. Rigaud A. Roy, K.V.K. Iyengar, M.L. Jhingan, S.K. Bhattacherjee G. Rudstam, S. Shalev, O.C. Jonsson R.L. Schulte, J.D. King, W. Taylor H.M. Schupferling, K.-W. Hoffmann W.D. Schmidt-Ott, K.S. Toth, E. Newman, C.R. Bingham D.K. Scott, B.G. Harvey, D.L. Hendrie, L. Krauss, C.F. Maguire, J. Mahoney, Y. Terrien, K. Yagi K.K. Seth, A. Saha, W. Benenson, W.A. Langford, H. Nann, B.H. Wildenthal G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1974Se11 1974To04 1974To07 1974Vi02 1974Vo08 NUPAB ZEPYA PRVCA ZEPYA IANFA 234, 268, 10, 269, 38, 130 289 2550 173 672 1974Vy01 IANFA 38, 701 1974Wa08 PRVCA 1974Wi17 PRVCA 1974Ya07 JUPSA 9, 10, 37, 1396 2184 10 607 R.G. Sextro, R.A. Gough, J. Cerny F. Tolea, K.R. Baker, W.D. Schmidt-Ott, R.W. Fink K.S. Toth, C.R. Bingham, W.D. Schmidt-Ott M. Viitasalo, I. Forsblom I. Votsilka, K.U. Zibert, B. Kracik, J. Liptak, A.F. Novgorodov, K.G. Ortlepp, M. Toshev, V. Habenicht Ts. Vylov, N.A. Golovkov, K.Y. Gromov, I.I. Gromova, A. Kolachkovsky, M.Y. Kuznetsova, Y.V. Norseev, V.G. Chumin C.W. Wang, Y.C. Liu, E.K. Lin, C.C. Hsu, G.C. Kiang B.H. Wildenthal, J.A. Rice, B.M. Preedom H. Yamamoto, K. Kawade, H. Fukaya, T. Katoh 1975 1975Ad08 IANFA 39, 1681 1975Ad09 1975Ah01 1975Ah05 NUPAB NUPAB PRVCA 254, 239, 12, 63 1 541 1975Al.A 1975An07 P-Leningrad NUPAB 242, 93 1975As04 NUPAB 247, 359 1975Ba25 1975Ba27 1975Ba65 1975Ba.B 1975Be09 1975Be21 1975Be28 1975Be38 1975Be.B 1975Bh01 1975Bo29 1975Br02 1975Br16 1975Br29 1975Bu01 1975Bu02 1975Bu.A 1975Ca06 1975Ch05 1975Ch21 1975De.A 1975Er.A 1975Fl07 1975Fr.A YAFIA 21, ZETFA 68, YAFIA 22, AnRpt CSNSM ZENAA 30, NUPAB 245, NUPAB 246, PYLBB 58, P-Paris PRVCA 12, ZPAAD 273, PRVCA 11, NUPAB 245, NCIAA 30, PRVCA 11, CJPHA 53, BAPSA 20, NUPAB 241, NUPAB 238, JPHGB 1, P-Petten PrvCom NDG ZPAAD 272, P-Paris 230 8 670 1975Fr.B 1975Ga25 1975Gr32 1975Ha43 1975He.C AnRpt AFI ANPHA 9, NUPAB 252, ZPAAD 274, KFK-2223 146 241 260 335 1975Ho09 PYLBB 57, 147 1975Ho14 NUPAB 248, 406 356 515 317 46 54 1457 373 546 243 483 1401 948 625 341 333 657 609 Jul 219 126 I. Adam, G. Baier, K.Y. Gromov, T.A. Islamov, K.G. Ortlepp, K. Tiroff, E. Herrmann, H. Strusnii I. Adam, K.Y. Gromov I. Ahmad, J. Milsted I. Ahmad, F.T. Porter, M.S. Freedman, R.K. Sjoblom, J. Lerner, R.F. Barnes, J. Milsted, P.R. Fields A.A. Aleksandrov, et al R.E. Anderson, R.L. Bunting, J.D. Burch, S.R. Chinn, J.J. Kraushaar, R.J. Peterson, D.E. Prull, B.W. Ridley, R.A. Ristinen M. Asghar, J.P. Gautheron, G. Bailleul, J.P. Bocquet, J. Greif, H. Schrader, G. Siegert, C. Ristori, J. Crancon, G.I. Crawford S.A. Baranov, V.M. Shatinskii, L.V. Chistyakov, V.M. Shubko S.A. Baranov, V.M. Shatinskii S.A. Baranov, V.M. Shatinskii G. Bastin, C.F. Liang M.J. Bechara, O. Dietsch H. Behrens, M. Kobelt, L. Szybisz, W.G. Thies H. Behrens, M. Kobelt, L. Szybisz, W.G. Thies W. Benenson, A. Guilchard, E. Kashy, D. Mueller, H. Nann, L.W. Robinson U. Bertsche, F. Rauch, K. Stelzer M.R. Bhat, R.E. Chrien, G.W. Cole, O.A. Wasson H.E. Bosch, J. Davidson, V. Silbergleit, C.A. Heras, S.M. Abecassis D. Breitig, R.F. Casten, W.R. Kane, G.W. Cole, J.A. Cizewski A.R. Brosi, B.H. Ketelle A. Brondi, R. Moro, P. Pelter, F. Terassi D.L. Bushnell, J. Hawkins, R. Goebbert, R.K. Smither D.G. Burke, J.M. Balogh, and erratum CJPHA 63(1985)649 M.E. Bunker, B.S. Nielsen, J.W. Starner, B.J. Dropesky, W.R. Daniels C. Cabot, C. Deprun, H. Gauvin, B. Lagarde, Y. Le Beyec, M. Lefort A. Charvet, R. Chery, R. Duffait, M. Morgue R. Chapman, G.D. Dracoulis J. de Boer J.R. Erskine D. Flothman, H.J. Gils, W. Wiesner, R. Loehken J.M. Freeman, R.J. Petty, S.H. Hoath, J.S. Ryder, W.E. Burcham, G.T.A. Squier K. Fransson, M. af Ugglas, P. Carle H. Gauvin, Y. Le Beyec, J. Livet, J.L. Reyss R.C. Greenwood, C.W. Reich, S.H. Vegors,Jr. H.H. Hansen, D. Mouchet D. Heck, J.A. Pinston, H. Börner, F. Braumandl, P. Jeuch, H.R. Koch, W. Mampe, R. Rousille, K. Schreckenbach P. Hornshøj, P. Tidemand-Petersson, R. Bethoux, A.A. Caretto, J.W. Grüter, P.G. Hansen, B. Jonson, E. Hagberg, S. Mattsson P. Hornshøj, P. Tidemand-Petersson, R. Kaczarowski, B. Kotlinska 608 1975Ka18 1975Ka25 1975Ke08 1975Ke09 1975Ke12 1975Kl06 1975Ko18 1975Ku14 1975Li14 1975Li22 1975Lo03 1975Lu02 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 PRVCA PRVCA PRVCA ZPAAD NUPAB NUPAB PRVCA NUPAB JUPSA NUPAB NUPAB PRVCA 11, 12, 12, 274, 255, 245, 12, 247, 39, 253, 243, 11, 1959 1054 553 233 296 133 1511 152 1 165 413 1470 1975Ma04 NUPAB 237, 285 11, 1975Ma05 1975Ma.A 1975Me13 1975Me20 1975Me23 1975Mu09 1975Na.A 1975No.A 1975Pl06 1975Ra07 1975Ra08 1975Ra09 1975Re09 1975Ro05 1975Ro16 1975Sc07 1975Se.A 1975Sl.A 1975Sm02 1975Sq01 PRVCA P-Petten PYLBB ZPAAD PRVCA PRVCA P-Petten P-Paris IJARA NUPAB JPHGB PRVCA NUPAB NUPAB NUPAB NUPAB BAPSA BAPSA PRVCA NUPAB 26, 242, 1, 11, 249, 240, 246, 242, 20, 20, 11, 242, 587 655 297 67 2010 51 566 140 579 189 461 1735 166 221 380 232 73 560 1392 62 1975St08 1975St12 1975Ta12 1975Th04 1975Th08 CJPHA CZYPA PRVCA NUPAB PRVCA 53, 25, 12, 242, 12, 922 626 108 1 644 1975To05 1975Un.A 1975Va.A PRVCA 12, P-Paris P-Leningrad 533 81 156 1975Vy02 IANFA 39, 1671 1975We03 1975We10 1975We23 1975We24 1975We.A 1975Wi06 1975Wi08 1975Wi26 CJPHA PHSTB ZPAAD PHFEA P-Petten PRVCA ZPAAD PYLBB 53, 11, 275, 10, 101 10 127 167 749 1477 291 142 1975Ze.A JINR-P6-8929 58, 275, 12, 12, 11, 272, 59, E. Kashy, W. Benenson, D. Mueller, R.G.H. Robertson, D.R. Goosman D. Kaiser, W.H. Johnson,Jr. G.G. Kennedy, S.C. Gujrathi, S.K. Mark G.G. Kennedy, S.C. Gujrathi, S.K. Mark J.J. Kent, S.L. Blatt H.V. Klapdor, M. Schrader, G. Bergdolt, A.M. Bergdolt R. Kouzes, W.H. Moore, and erratum PRVCA 13,890 A.W. Kuhfeld, N.M. Hintz C.Y. Liu, T.H. Hsue, K. Lin, P.K. Tseng, C.C. Hsu, C.W. Wang J.R. Lien, J.S. Vaagen, A. Graue M.A. Lone, E.D. Earle, G.A. Bartholemew D.H. Lueders, J.M. Daley, S.G. Buccino, F.E. Durham, C.E. Hollandsworth, W.P. Bucher, H.D. Jones M.R. MacPhail, R.G. Summers-Gill, see also thesis Winnipeg, and PrvCom AHW September 1980 G.J. Matthews, F.M. Bernthal, J.D. Immele P. Matusek L.R. Medsker, H.T. Fortune B.J. Meijer, J. Konijn R.A. Meyer, R.G. Lanier, J.T. Larsen D. Mueller, E. Kashy, W. Benenson, H. Nann M.R. Najam, A.F.M. Ishaq, M. Anwar, A.M. Khan, J.A. Mirza J. Nolen J. Plch, J. Zderadicka, O. Dragoun D. Rabenstein, D. Harrach C.N. Rao, B.M. Rao, P.M. Rao, K.V. Reddy see 75Ra09 C.N. Rao, B.M. Rao, K.V. Reddy W. Reiter, W.H. Breunlich, P. Hille C. Rolfs, W.S. Rodney, S. Durrance, H. Winkler R. Rousille, J.A. Pinston, H. Börner, H.R. Koch, D. Heck H. Schmeing, J.C. Hardy, R.L. Graham, J.S. Geiger F.J.D. Serduke, W. Henning G.G. Slaughter, S. Raman L.G. Smith, A.H. Wapstra G.T.A. Squier, W.E. Burcham, J.M. Freedman, R.J. Petty, S.D. Hoath, J.S. Ryder W.R. Stott, J.C. Waddington, D.G. Burke, G. Løvhøiden H. Strusny, H. Tyrroff, E. Herrmann, G. Musiol H. Taketani, H.L. Sharma, N.M. Hintz R.C. Thompson, J.S. Boyno, J.R. Huizenga, D.G. Burke, T.W. Elze C. Thibault, R. Klapisch, C. Rigaud, A.M. Poskanzer, R. Prieels, L. Lessard, W. Reisdorf K.S. Toth, W.D. Schmidt-Ott, C.R. Bingham, M.A. Ijaz UNISOR consortium V.M. Vachte, N.A. Golovkov, B.S. Dzelepov, R.B. Ivanov, A. Lyushenski, M.A. Michailova, A.B. Mozhuchin, B.G. Shumin Ts. Vylov, I.I. Gromova, V.G. Kalinnikov, V. Kuznetsov, T.M. Muminov, V.A. Morozov, V.I. Fominikh, R.R. Uzmanov, E.R. Shavgulidze C. Weiffenbach, S.C. Gujrathi, J.K.P. Lee T. Westrom, B. Fant, I. Forsblom, M. Viitasalo L. Westgaard, K. Aleklett, G. Nyman, E. Roeckl T. Weckstrom, I. Forsblom, P. Holmberg C. Weitkamp, P. Matusek, H. Ottmar W.M. Wilson, G.E. Thomas, H.E. Jackson G. Wirth, N. Kaffrell, K. Chayawattanangkur, G. Herrmann, K.E. Seyb K.H. Wilcox, R.B. Weisenmiller, G.J. Wozniak, N.A. Jelley, D. Ashery, J. Cerny A. Zelinsky, K. Zuber, Y. Zuber, V.V. Kuznetsov, A. Kolachkovsky, A. Lyatushinsky, Y.V. Norseev, H.G. Ortlepp, I. Penev, A.V. Potempa G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 609 1976 1976Aj03 PRVCA 14, 767 1976Al01 1976Al16 1976Ba99 1976Be02 1976Be08 1976Be11 NUPAB NUIMA AENGA NUPAB PRVCA NUPAB 257, 136, 41, 256, 13, 260, 490 323 342 87 1479 269 1976Be.A AnRpt OakRidge 1976Be.B 1976Bi09 AnRpt MSUCL PRVCA 14, 11 1586 1976Ca10 1976Ca24 1976Ca25 1976Cr.B 1976Da20 1976Da.C NUPAB 261, PRVCA 14, PRVCA 14, JINR-P6-9711 PRVCA 14, P-Cargese 445 1439 912 1976Di15 1976Di.A NUIMA 139, AnRpt OakRidge 181 1976Ed.A 1976El12 1976Fl02 1976Ga.A 1976Ge02 1976Ge14 1976Go02 P-Cargese CJPHA PRVCA P-Baku PRVCA PRVCA PRVCA 54, 13, 258 1493 568 13, 14, 13, 1434 1896 1601 1976Gr19 1976Gr20 PHSTB APOBB 14, 7, 263 507 1976Gr.A 1976Ha29 P-Cargese PYLBB 63, 428 27 1976Ha36 1976Ha39 ZPAAD PRVCA 278, 14, 183 645 1976He04 1976He.B 1976Hi08 1976Hi10 NUPAB NDSBA CJPHA PRLTA 258, 17, 54, 37, 83 287 1360 130 1976Hi14 1976Jo01 1976Jo.A JPHGB PRVCA P-Cargese 2, 13, L143 439 277 1976Ka19 1976Ka24 NUPAB PRVCA 266, 14, 346 1773 2011 100 F. Ajzenberg-Selove, E.R. Flynn, O. Hansen, J.D. Sherman, N. Stern, J.W. Sunier M.M. Aleonard, P. Hubert, L. Sarger, P. Mennrath D.E. Alburger S.A. Baranov, et al D. Berenyi, G. Hock, A. Menes, G. Szekely, Cs. Ujhelyi, B.A. Zon W. Benenson, A. Guichard, E. Kashy, D. Mueller, H. Nann G. Beyer, A. Jasinski, O. Knotek, H.G. Ortlepp, H.U. Siebert, R. Aelt, E. Herrmann, G. Musiol, H. Tyrroff C.E. Bemis,Jr., P.F. Dittner, R.J. Silva, D.C. Hensley, R.L. Hahn, J.R. Tarrant, L.D. Hunt, and PrvCom AHW July 1981 F.M. Bernthal C.R. Bingham, L.L. Riedinger, F.E. Turner, B.D. Kern, J.L. Weil, K.J. Hofstetter, J. Lin, E.F. Zganjar, A.V. Ramayya, J.H. Hamilton, J.L. Wood, G.M. Gowdy, R.W. Fink, E.H. Spejewski, W.D. Schmidt-Ott, R.L. Mlekodaj, H.K. Carter, K.S.R. Sastry R.F. Casten, D. Burke, O. Hansen R.F. Carlton, S. Raman, J.A. Harvey, G.G. Slaughter R.F. Casten, W.R. Kane, J.R. Erskine, A.M. Friedman, D.S. Gale T. Cretzu, V.V. Kuznetsov, G. Luzurej, G. Macarie, M. Finger W.W. Daehnick, M.M. Spisak, R.M. Del Vecchio J.M. D’Auria, J.W. Grüter, L. Westgaard, G. Nyman, P. Peuser, E. Roeckl, H. Otto, ISOLDE J.S. Dionisio, C. Vieu, C.M. Truong, G. Leur P.F. Dittner, R.J. Silva, D.C. Hensley, R.L. Hahn, J.R. Tarrant, L.D. Hunt, and PrvCom AHW July 1981 M.D. Edmiston, R.A. Warner, W.C. McHarris, W.H. Kelly D. Elmore, W.P. Alford E.R. Flynn, J.D. Sherman, N. Stein, D.K. Olsen, P.J. Riley M. Gasior, B.G. Kalinnikov, T. Kretsu W. Gelletly, W.R. Kane, R.F. Casten R.J. Gehrke, R.G. Helmer, C.W. Reich, R.A. Anderl G.M. Gowdy, A.C. Xenoulis, J.L. Wood, K.R. Baker, R.W. Fink, J.L. Weil, B.D. Kern, K.J. Hofstetter, E.H. Spejewski, R.L. Mlekodaj, H.K. Carter, W.D. Schmidt-Ott, J. Lin, C.B. Ringham, L.L. Riedinger, E.F. Zganjar, K.S. Sastry, A.V. Ramayya, J.H. Hamilton T. Grotdal, L. Guldberg, K. Nybø, T.F. Thorsteinsen K.Y. Gromov, D.T. Dzelev, K. Zuber, Y. Zuber, T.A. Islamov, V.V. Kuznetsov, H.G. Ortlepp, A.V. Potempa J.W. Grüter, B. Jonson, O.B. Nielsen J.C. Hardy, J.A. Macdonald, H. Schmeing, T. Faestermann, H.R. Andrews, J.S. Geiger, R.L. Graham, K.P. Jackson W. Hartl, J.W. Hammer P.E. Haustein, E.M. Franz, S. Katcoff, N.A. Morcos, H.A. Smith,Jr., T.E. Ward R.G. Helmer, R.J. Gehrke, R.C. Greenwood, C.W. Reich, L.D. McIsaac E.A. Henry C.R. Hirning, D.G. Burke G.T. Hickey, D.C. Weisser, J. Cerny, G.M. Crawley, A.F. Zeller, T.R. Ophel, D.F. Hebbard G.T. Hickey, G.M. Crawley, D.C. Weisser, N. Shikazono P.L. Jolivette, J.D. Goss, J.A. Bieszk, R.D. Hichwa, C.P. Browne B. Jonson, E. Hagberg, P.G. Hansen, P. Hornshøj, P. Tidemand-Petersson, ISOLDE R. Kamermans, H.W. Jongsma, T.J. Ketel, R. van der Wey, H. Verheul E. Kashy, W. Benenson, D. Mueller, H. Nann, L. Robinson 610 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1976Ki12 1976Lu02 1976Lu04 1976Ma03 1976Ma16 1976Ma35 1976Na23 1976Nu01 1976Pi04 1976Pi13 NUPAB PRVCA NUIMA PRVCA PRVCA PRVCA PRVCA PRVCA NUPAB NUPAB 272, 13, 134, 13, 13, 14, 14, 13, 264, 270, 381 1544 173 118 1117 1141 2338 2017 1 61 1976Ra33 1976Ra37 1976Ro04 1976Sc13 1976Sh24 CUSCA ZPAAD PRVCA NUPAB NUIMA 45, 279, 13, 263, 135, 606 301 1018 193 583 1976Sl06 1976Sp08 1976St11 1976Su.A 1976Su.B 1976To06 NUPAB NUPAB NUPAB BAPSA BAPSA PYLBB 274, 265, 266, 21, 21, 63, 93 416 424 658 984 150 1976Tr01 1976Tr03 1976Tu.A 1976Vi02 1976Vi.A PRVCA 13, PYLBB 61, Th.-Berkeley PYLBB 60, P-Cargese 50 353 261 462 K. Kimura, N. Takagi, M. Tanaka E. Lund, G. Rudstam E. Lund, G. Rudstam J.F. Mateja, G.F. Neal, J.D. Goss, P.R. Chagnon, C.P. Browne D.J. Martin, M.R. MacPhail L.G. Mann, W.B. Walters, R.A. Meyer H. Nann, D. Mueller, A. Saha, E. Kashy L.L. Nunnely, W. Loveland J.A. Pinston, R. Rousille, H. Börner, H.R. Koch J.A. Pinston, R. Rousille, H. Börner, W.F. Davidson, P. Jeuch, H.R. Koch, K. Schreckenbach K.V. Ramania, G.K. Raju, K.V. Reddy D.G. Raich, H.R. Bowman, R.E. Eppley, J.O. Rasmussen, I. Rezanka R.G.H. Robertson, W. Benenson, E. Kashy, D. Mueller M. Schrader, H. Reiss, G. Rosner, H.V. Klapdor J.F. Sharpey-Schafer, A.M. Al Naser, A.H. Behbehani, L.L. Green, A.N. James, C. Lister, P.J. Nolan D.N. Slater, W. Booth R.J. Sparks W.F. Steele, P.A. Smith, J.E. Finck, G.M. Crawley E. Sugarbaker, W.S. Gray E. Sugarbaker, W.S. Gray K.S. Toth, M.A. Ijaz, J. Lin, E.L. Robinson, B.O. Hannah, E.H. Spejewski, J.D. Cole, J.H. Hamilton, A.V. Ramayya R.E. Tribble, R.A. Kenefick, R.L. Spross R.E. Tribble, J.D. Cossairt, R.A. Kenefick D.G. Tuggle D.J. Vieira, D.F. Sherman, M.S. Zisman, R.A. Gough, J. Cerny C. Vieu, J.S. Dionisio, V. Berg, C. Bourgeois 1977 1977Al17 1977Ba10 NUPAB CJPHA 285, 55, 1 200 1977Ba33 IANFA 41, 101 1977Ba69 1977Be09 YAFIA PRVCA 26, 15, 461 705 1977Be13 1977Be36 PRVCA PRVCA 15, 16, 1187 1146 1977Bh03 1977Bo02 ZPAAD NUPAB 281, 275, 65 229 1977Bo28 1977Bo31 PYLBB IANFA 71, 41, 67 1149 1977Bo32 IANFA 41, 1189 1977Bo.A 1977Ca09 1977Ca23 1977Co08 1977Cr05 1977Da22 1977De06 1977De25 PrvCom AHW PRVCA 15, ZPAAD 283, PRVCA 15, IANFA 41, GCACA 41, PRVCA 15, ZPAAD 283, Oct 883 221 1685 2032 1745 800 33 K. Aleklett, E. Lund, G. Nyman, G. Rudstam J.W. Barnard, P. Williams, R.C. Barber, S.S. Hague, K.S. Kozier, K.K. Sharma, H.E. Duckworth I.F. Barchuk, G.V. Belykh, V.I. Golyshkin, A.F. Ogorodnik, M.M. Tuschinski S.A. Baranov, V.M. Shatinskii C.E. Bemis,Jr., R.L. Ferguson, F. Plasil, R.J. Silva, F. Pleasanton, R.L. Hahn W. Benenson, D. Mueller, E. Kashy, H. Nann, L.W. Robinson C.E. Bemis,Jr., P.F. Dittner, R.J. Silva, R.L. Hahn, J.R. Tarrant, L.D. Hunt, D.C. Hensley T.S. Bhatia, H. Hafner, R. Haupt, R. Maschuw, G.J. Wagner D.D. Bogdanov, A.V. Demyanov, V.A. Karnaukhov, L.A. Petrov, A. Plochocki, V.G. Subbotin, J. Voboril D.D. Bogdanov, J. Vobořil, A.V. Demyanov, L.A. Petrov N.A. Bonch-Osmolovskaya, V.M. Gorodzankin, K.Y. Gromov, T. Kretsu, V.V. Kuznetsov, G. Makarie, A.S. Khamidov, M. Yatiski B. Bogdan, M. Gasior, T. Kretsu, V.V. Kuznetsov, N.A. Lebedev, G.I. Lizurei, G. Makarie, D.G. Popesku, A.S. Khamidov V.R. Bom, D. De Bruin R.F. Carlton, S. Raman, G.G. Slaughter C. Cabot, S. Della Negra, C. Deprun, H. Gauvin, Y. Le Beyec J.D. Cossairt, R.E. Tribble, R.A. Kenefick T. Cretsu, G. Makarie, A.V. Potempa, E. Senyavski D.W. Davis, J. Gray, G.L. Cumming, H. Baadsgaard J. Deslauriers, S.C. Gujrathi, S.K. Mark J. Deslauriers, S.C. Gujrathi, S.K. Mark G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1977De32 1977Dr07 JPSLB AENGA 38, 42, 393 314 1977Em02 1977Er02 1977Fl03 1977Fo02 1977Fo09 NUPAB ZPAAD PRVCA ZPAAD PYLBB 293, 280, 15, 281, 70, 379 79 879 89 408 1977Fr20 1977Gu02 ZPAAD PRVCA 281, 15, 211 894 1977Ha48 NUPAB 293, 1 1977He26 1977Ho02 NUIMA NUPAB 147, 276, 425 1 1977Ho09 1977Ho25 1977Ij01 1977Is01 1977Je03 1977Jo03 1977Ka08 1977Ke03 1977Ko04 1977Ko05 1977Ko15 1977Ko.A 1977Ko.B 1977Kr.A JUPSA 42, NUPAB 288, PRVCA 15, ZPAAD 281, PRVCA 15, PRVCA 15, NUPAB 279, PRVCA 15, PRVCA 15, ZPAAD 281, PRVCA 16, PrvCom AHW P-Tashkent JINR-P6-10748 1098 429 2251 365 1972 915 269 792 1947 409 588 Feb 65 1977Li16 1977Lu06 1977Ma12 1977Ma24 PHSTB NUPAB PRVCA NUPAB 15, 286, 15, 288, 205 403 1708 1 1977Mc05 1977Mc09 1977Me04 1977Mi.A 1977Mo13 1977Mu03 1977Na17 1977Na24 1977No08 1977Nu01 1977Pa01 1977Pa13 1977Pa18 1977Pr07 1977Ra08 1977Ra17 1977Ra18 1977Re05 1977Re12 1977Re.A 1977Sc03 NUPAB 281, PRVCA 16, PRVCA 15, KFK-2438 NUPAB 289, PRVCA 15, PRVCA 16, NUIMA 144, PYLBB 71, PRVCA 15, PRVCA 15, PRVCA 15, PRVCA 16, PRVCA 16, IJOPA 15, JPHGB 3, JPHGB 3, PRVCA 15, CUSCA 46, Th.-Montreal PYLBB 66, 325 1278 649 36 1282 1566 331 314 444 730 1811 370 1001 41 637 633 2108 95 133 611 S. Della Negra, B. Lagarde, Y. Le Beyec A.A. Druzhinin, V.K. Grigorev, A.A. Lbov, S.P. Vesnovskii, N.G. Krylov, V.N. Polynov R.A. Emigh, R.E. Anderson B. Erlandson, J. Lyttkens E.R. Flynn, J.W. Sunier, F. Ajzenberg-Selove B. Fogelberg, W. Maup H.T. Fortune, R. Middleton, M.E. Coburn, G.E. Moore, S. Mordechai, R.V. Kollarits, H. Nann, W. Chung, B.H. Wildenthal T. Freie, H. Lorenz-Wirba, B. Cleff, H.P. Trautvetter, C. Rolfs P. Guilbault, D. Ardouin, R. Tamisier, P. Avignon, M. Vergnes, G. Rotbard, G. Berrier E. Hagberg, P.G. Hansen, J.C. Hardy, P. Hornshøj, B. Jonson, S. Mattsson, P. Tidemand-Petersson J.C.P. Heggie, Z.E. Zwitkowski C.L. Hollas, K.A. Aniol, D.W. Gebbie, M. Borsaru, J. Nurzinski, L.O. Barbopoulos M. Hoshi, M. Fujiwara, Y. Yoshisama P. Hornshøj, L. Hojsholt-Poulsen, N. Rud M.A. Ijaz, C.R. Bingham, H.K. Carter, E.L. Robinson, K.S. Toth A.F.M. Ishaq, S. Robertson, W.V. Prestwich, T.J. Kennett C.M. Jensen, W.R.G. Lanier, G.L. Struble, L.G. Mann, S.G. Prussin C.H. Johnson, J.K. Bair, C.M. Jones K. Kawade, H. Yamamoto, Y. Ikeda, V.N. Bhoraskar, T. Katoh G. Kennedy, J. Deslauriers, S.C. Gujrathi, S.K. Mark J.J. Kolata, M. Oothoudt G. Korschinek, E. Nolte, H. Hick, K. Miyano, W. Kutschera, H. Morinaga B.K.S. Koene, R.E. Chrien B.K. Koene, R.E. Chrien, M. Yachim T. Kozlowski, T. Kormitski, Y. Lushtshnski, A. Yasinski T. Kretsu, V.V. Kuznetsov, G. Luzurej, Chan Chen Mo, V.M. Gorodzankin, G. Makarie E. Lingeman E. Lund, K. Aleklett, G. Rudstam J.F. Mateja, C.P. Browne J.A. Macdonald, J.C. Hardy, H. Schmeing, T. Faestermann, H.R. Andrews, J.S. Geiger, R.L. Graham, K.P. Jackson A.B. McDonald, E.D. Earle, M.A. Lone, F.C. Khanna, H.C. Lee D.A. McClure, S. Raman, G.C. Slaughter L.R. Medsker, L.H. Fry,Jr., J.L. Yntema M. Mirkiditsian S. Mordechai, M.E. Coburn, G.E. Moore, H.T. Fortune D. Mueller, E. Kashy, W. Benenson A.M. Nathan, D.E. Alburger, J.W. Olness, E.K. Warburton H. Naylor, R.E. White J.A. Nolen, T.S. Bhatia, H. Hafner, P. Doll, C.A. Wiedner, G.J. Wagner L.L. Nunnelley, W.D. Loveland L.A. Parks, C.N. Davids, R.C. Pardo R.C. Pardo, C.N. Davids, M.J. Murphy, E.B. Norman, L.A. Parks R.C. Pardo, C.N. Davids, M.J. Murphy, E.B. Norman, L.A. Parks S.G. Prussin, R.G. Lanier, G.L. Struble, L.G. Mann, S.M. Schoenung K.V. Ramaniah, G.R. Raju, K.V. Reddy Venkata Ramaniahah, G. Kusa Raju, K. Venkata Reddy Venkata Ramaniahah, K. Venkata Reddy P.L. Reeder, J.F. Wright, L.J. Alquist T.S. Reddy, R. Matthews, K.V. Reddy D.M. Rehfield DABBB 38,4874(1978) A.G. Schmidt, R.L. Mlekodaj, E.L. Robinson, F.T. Avignone, J. Lin, G.M. Gowdy, J.L. Wood, R.W. Fink 612 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1977Sc21 ZPAAD 283, 43 1977Sh04 CJPHA 55, 506 1977Sh06 1977Sh08 1977Sh12 PRVCA PYLBB CJPHA 15, 67, 55, 903 275 1360 1977So02 1977St15 1977St22 1977Tr03 1977Tr05 1977Tr07 1977Tu01 1977Vo02 CJPHA PRVCA CJPHA PRVCA PRVCA PRVCA ZPAAD NUPAB 55, 16, 55, 15, 16, 16, 280, 278, 383 574 1687 2028 917 1835 309 189 1977Vy02 IANFA 41, 1634 1977Wh03 AUJPA 1977Ya07 JUPSA 30, 43, 365 8 F. Schussler, J. Blachot, E. Monnand, J.A. Pinston, B. Pfeiffer, K. Hawerkamp, R. Stippler S.H. Sharma, K.S. Kozier, J.W. Barnard, R.C. Barber, S.S. Haque, H.E. Duckworth J.D. Sherman, D.L. Hendrie, M.S. Zisman J.D. Sherman, E.R. Flynn, O. Hansen, N. Stein, J.W. Sunier K.S. Sharma, J.O. Meredith, R.C. Barber, K.S. Kozier, S.S. Hague, J.W. Barnard, F.C.G. Southon, P. Williams, H.E. Duckworth F.C.G. Southon, J.O. Meredith, R.C. Barber, H.E. Duckworth M.L. Stelts, J.C. Browne O. Straume, D.G. Burke R.E. Tribble, J.D. Cossairt, R.A. Kenefick R.E. Tribble, J.D. Cossairt, D.P. May, R.A. Kenefick R.E. Tribble, J.D. Cossairt, D.P. May, R.A. Kenefick T. Tuurnala, K. Katajanheimo, E. Hammaren H. Vonach, P. Glass, E. Huenges, P. Maier-Komor, H. Reoser, H.J. Scheerer, H. Paul, D. Semrad Ts. Vylov, N.A. Golovkov, B.S. Dzelepov, R.B. Ivanov, M.A. Mikhailova, Y.V. Norseev, V.G. Shumin R.E. White, H. Naylor H. Yamamoto, K. Kawade, K. Ikeda, T. Katoh 1978 1978Aj01 1978Al18 1978Al23 1978Al29 1978An10 1978An14 PRVCA PRVCA PRVCA PRVCA NUPAB PHSTB 17, 18, 18, 18, 303, 18, 960 462 1875 2727 154 165 1978Ar12 PRVCA 18, 1201 1978Az01 1978Ba44 PRVCA PRLTA 17, 41, 443 738 1978Ba.C 1978Be09 P-Alma Ata PRVCA 17, 123 529 1978Be22 1978Be26 ZPAAD PRVCA 285, 17, 405 1939 1978Bh02 PYLBB 76, 562 1978Bo20 1978Bo32 NUPAB NUPAB 303, 307, 145 421 1978Bo.A 1978Bu18 1978Ca11 1978Ch22 1978Co.A 1978Cr02 1978Cr03 1978Da04 P-Alma Ata PRVCA 18, ZPAAD 287, MTRGA 14, AnRpt Texas AM IANFA 42, ZPAAD 287, PRVCA 17, 1978Da07 NUPAB 301, 397 1978Do06 ZPAAD 286, 107 54 693 71 157 56 45 1815 F. Ajzenberg-Selove, E.R. Flynn, J.W. Sunier, D.L. Hanson K. Aleklett, E. Lund, G. Rudstam D.E. Alburger D.E. Alburger, S. Mordechai, H.T. Fortune, R. Middleton K.A. Aniol, D.W. Gebbie, C.L. Hollas, J. Nurzinski G. Andersson, M. Ashgar, A. Emsallem, E. Hagberg, B. Jonson, P. Tidemand-Petersson D. Ardouin, C. Lebrun, F. Guilbault, B. Remand, E.R. Flynn, D.L. Hanson, S.D. Orbesen, M.N. Vergnes, G. Rotbard, K. Kumar G. Azuelos, G.V. Rao, P. Taras P.A. Baisden, R.E. Leber, M. Nurmia, J.M. Nitschke, M. Michel, A. Ghiorso S.A. Baranov, V.M. Shatinskii, L.V. Chistyakov, N.I. Aleshin G. Berrier-Ronsin, M. Vergnes, G. Rotbard, J. Vernotte, J. Kalifa, R. Seltz, H.L. Sharma D. Benson,Jr., P. Kleinheinz, R.K. Sheline, E.B. Shera W. Benenson, E. Kashy, A.G. Ledebuhr, R.C. Pardo, R.G.H. Robertson, L.W. Robinson T.S. Bhatia, H. Hafner, J.A. Nolen,Jr., W. Saathoff, R. Schuhmacher, R.E. Tribble, G.J. Wagner, C.A. Wiedner D.D. Bogdanov, A.V. Demyanov, V.A. Karnaukhov, L.A. Petrov, J. Voboril D.D. Bogdanov, A.V. Demyanov, V.A. Karnaukhov, M. Nowicki, L.A. Petrov, J. Voboril, A. Plochocki D.D. Bogdanov, I. Bobordzil, A.V. Demianov, L.A. Petrov D.G. Burke, G. Løvhøiden, E.R. Flynn, J.W. Sunier C. Cabot, S. Della Negra, C. Deprun, H. Gauvin, Y. Le Beyec P. Christmas, P. Cross J.D. Cossairt, D.P. May T. Cretzu, V.V. Kuznetsov, G. Luzurej, V.M. Gorodzankin, G. Macarie J. Crançon, C. Ristori, H. Ohm, W. Rudolph, K.-L. Kratz, M. Asghar C.N. Davids, D.F. Geesaman, S.L. Tabor, M.J. Murphy, E.B. Norman, R.C. Pardo J.M. D’Auria, J.W. Grüter, E. Hagberg, P.G. Hansen, J.C. Hardy, P. Hornshøj, B. Jonson, S. Mattsson, H.L. Ravn, P. Tidemand-Petersson P.H. Do, R. Chery, H.G. Börner, W.F. Davidson, J.A. Pinston, R. Rousille, K. Schreckenbach, H.R. Koch, H. Seyfarth, D. Heck G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1978Ek05 1978El11 1978Fi02 1978Ga07 HYIND PRVCA PRVCA YAFIA 4, 18, 17, 27, 165 2713 718 894 1978Ge01 1978Gr10 1978Gr13 NUPAB NUPAB YAFIA 295, 303, 27, 221 265 1421 1978Gu14 1978Ha08 ZPAAD PYLBB 287, 73, 271 139 1978Ha11 1978Hu06 1978Ik03 1978Ja06 NUPAB CJPHA JUPSA JPHGB 296, 56, 45, 4, 251 936 725 579 1978Ka12 1978Ke06 PRVCA PRVCA 17, 17, 1555 1929 1978Ke10 PRVCA 18, 1938 1978Ko24 1978Ko27 1978Ko28 1978Le.A NUPAB 307, NUPAB 309, PRVCA 18, Table of Isotopes 71 329 1587 1978Lo07 1978Lo13 1978Ma18 1978Ma23 NUPAB JINCA JUPSA NUPAB 302, 40, 44, 301, 51 1865 1070 213 1978Ma24 NUPAB 1978Mo12 NUPAB 301, 305, 237 29 1978Mu05 1978No03 1978No05 1978Pa11 1978Pa12 PRVCA PRVCA PRVCA PRVCA PRVCA 17, 17, 18, 18, 18, 1574 2176 102 1249 1277 1978Pe08 1978Pf01 1978Ra15 1978Ra16 1978Re01 1978Ro01 1978Ro03 1978Ro14 NUPAB PRLTA PRVCA PRVCA ZPAAD PRVCA ZPAAD PRVCA 302, 41, 18, 18, 284, 17, 284, 18, 1 63 1085 1158 403 4 407 86 1978Ro19 PYLBB 78B, 393 1978Sc26 ZPAAD 288, 189 1978Se04 1978Sh11 1978St25 1978Su03 1978Sz04 PRVCA NUPAB NUIMA ZPAAD PRVCA 17, 304, 155, 287, 17, 1919 40 253 287 2253 613 C. Ekstrom, S. Ingelman, G. Wannberg, M. Skarestad, ISOLDE Y.A. Ellis, K.S. Toth, H.K. Carter R.B. Firestone, R.A. Warner, W.C. McHarris, W.H. Kelly Yu. P. Gangrskii, G.M. Marinescu, M.B. Miller, V.N. Samosyuk, I.F. Kharisov C.P. Gerner, J. Van Pelt, O.W. De Ridder, J. Blok H.C. Griffin, I. Ahmad, A.M. Friedman, L.E. Glendenin I.I. Gromova, T. Kretsu, V.V. Kuznetsov, G.I. Lizurei, N.A. Lebedev, V.M. Gorozhankin, G. Macarie H.H. Guven, B. Kardon, H. Seyfarth E. Hagberg, P.G. Hansen, P. Hornshøj, B. Jonson, S. Mattsson, P. Tidemand-Petersson, ISOLDE S.I. Hayakama, I.R. Hyman, J.K.P. Lee H. Huang, B.P. Pathek, J.K.P. Lee Y. Ikeda, H. Yamamoto, K. Kawade, T. Katoh, K. Nagahara A.N. James, J.F. Sharpey-Schafer, A.M. Al Naser, A.H. Behbehani, C.J. Lister, P.J. Nolan, P.H. Barker, W.E. Burcham R. Kamermans, J. Van Driel, H.P. Blok, P.J. Blankhorst G.J. KeKelis, M.S. Zisman, D.K. Scott, R. Jahn, D.J. Vieira, J. Cerny, F. Ajzenberg-Selove B.D. Kern, F. Gabbard, R.G. Kruzek, M.R. McPherson, K.K. Sekharan, F.D. Snyder R.T. Kouzes, D. Mueller R.T. Kouzes, P. Kutt, D. Mueller, R. Sherr R.T. Kouzes, D. Mueller, C. Yu C.M. Lederer, V.S. Shirley, E. Browne, J.M. Dairiki, R.E. Doebler, A.A. Shihab-Eldin, L.J. Jardine, J.K. Tuli, A.B. Buyrn G. Løvhøiden, O. Straume, D.G. Burke R.W. Lougheed, J.F. Wild, E.K. Hulet, R.W. Hoff, J.H. Landrum Z. Matumoto, T. Tamura J.W. Maas, E. Somorjai, H.D. Graber, C.A. Vandenwijngaard, C. Van der Leun, P.M. Endt J.W. Maas, A.J.C. Holvast, A. Baghus, H.J.M. Aarts, P.M. Endt L.A. Montestraque, M.C. Cobian Rozak, G. Szaloky, J.D. Zumbro, S.E. Darden M.J. Murphy, C.N. Davids, E.B. Norman, R.C. Pardo E.B. Norman, C.N. Davids, M.J. Murphy, R.C. Pardo E.B. Norman, C.N. Davids R.C. Pardo, E. Kashy, W. Benenson, L.W. Robinson I. Paschopoulos, E. Müller, H.J. Körner, I.C. Oelrich, K.E. Rehm, H.J. Scheerer J.G. Pengra, H. Genz, R.W. Fink L.P. Pfeiffer, A.P. Mills,Jr., R.S. Raghavan, F. Achandros G.R. Rao, G. Azuelos, J.C. Kim, J.P. Martin, P. Taras S. Raman, R.F. Carlton, G.G. Slaughter, M.R. Meder T.S. Reddy, R. Matthews, K.V. Reddy R.G. HRobertson, E. Kashy, W. Benenson, A. Ledebuhr A. Robertson, T.J. Kennett, W.V. Prestwich G. Rotbard, L. Larana, M. Vergnes, G. Berrier, J. Kalifa, F. Guilbault, R. Tamisier E. Roeckl, R. Kirchner, O. Klepper, G. Nyman, W. Reisdorf, D. Schardt, K. Wien, R. Fass, S. Mattsson U.J. Schrewe, W.D. Schmidt-Ott, R.-D. von Dincklage, E. Georg, P. Lemmertz, H. Jungclas, D. Hirdes R.R. Sercely, R.J. Peterson, E.R. Flynn S. Shastry, R.A. Emigh, R.J. Peterson, R.E. Anderson H.L. Stelts, R.E. Chrien K. Sümmerer, N. Kaffrell, H. Otto, P. Peuser, N. Trautmann A. Szanto De Toledo, H.V. Klapdor, H. Hafner, W. Saathoff, E.M. Szanto, M. Schrader 614 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1978Sz09 JPHGB 4, L187 1978Ta10 1978Tu04 1978Va04 1978Ve10 PRVCA PHSTB NUPAB JPSLB 18, 18, 295, 39, 1064 31 211 291 1978We12 1978We14 1978Wi04 1978Wo01 1978Wo15 1978Ya07 1978Ze04 1978Zg.A PHSTB NUPAB PRVCA PRVCA PRVCA PRVCA PRVCA PrvCom 18, 308, 18, 17, 18, 17, 18, AHW 275 222 401 66 2328 2061 2122 Sep A. Szanto De Toledo, H.V. Klapdor, H. Hafner, W. Saathoff, E.M. Szanto, M. Schrader, H. Dias R.W. Tarara, J.P. Zumbro, C.P. Browne T. Tuurnala, R. Katajanheimo, O. Heinonen J. Van Pelt, C.P. Gerner, O.W. De Ridder, J. Blok L. Vergnes, G. Rotbard, J. Kalifa, G. Berrier, J. Vernotte, Y. Deschamps, R. Selz T. Weckstrom D.C. Weisser, A.F. Zeller, T.R. Ophel, D.F. Hebbard D.H. Wilkinson, A. Gallmann, D.E. Alburger C. Woods F.K. Wohn, W.L. Talbert,Jr. Y. Yamazaki, R.K. Sheline, E.B. Shera corr PRVCA 18,2450 B. Zeidman, J.A. Nolen,Jr. E.F. Zganjar, W.R. Kane, G.J. Smith, J.A. Cizewski 1979 1979Ad08 IANFA 43, 1089 1979Ah03 1979Aj02 1979Aj03 1979Al04 PRVCA PRVCA PRVCA JPHGB 20, 19, 19, 5, 200 1742 2068 423 1979Al05 1979Al16 ZPAAD ZPAAD 290, 291, 173 397 1979An36 IANFA 43, 1076 1979Ba06 1979Ba31 ZPAAD NUPAB 289, 325, 325 305 1979Ba67 1979Be.A AENGA 47, P-Brookhaven 404 561 1979Bo37 1979Br05 1979Br19 1979Br25 1979Br26 1979Br.A 1979Br.B 1979Bu05 1979Ca02 ZENAA 34, ZPAAD 289, PRVCA 20, NUIMA 166, ZPAAD 292, Th.-McMaster AnRpt NotrDame NUPAB 318, NUPAB 316, 1536 289 1301 243 397 1979Da04 1979Da.A 1979De44 1979Do09 1979Du02 PRVCA 19, P-Lansing NUPAB 332, PRVCA 20, NUPAB 315, 1463 419 382 1112 317 1979Fi07 1979Fl02 PYLBB PRVCA 89, 19, 77 61 36 355 I.A. Adam, A.V. Budzyak, M. Gonusek, V.M. Gorodzhankin, B.S. Dzelepov, V.G. Kalinnikov, A.V. Kudryavtseva, V.V. Kuznetsov, V.I. Stegaylov, A. Shshalek I. Ahmad, S.W. Yates, R.K. Sjoblom, A.M. Friedman F. Ajzenberg-Selove, E.R. Flynn, D.L. Hanson, S. Orbesen F. Ajzenberg-Selove, E.R. Flynn, D.L. Hansen, S. Orbesen A.M. Al Naser, A.H. Behbehani, P.A. Butler, L.L. Green, A.N. James, C.J. Lister, P.J. Nolan, N.R.F. Ramsmo, J.F. Sharpey-Schafer, H.M. Sheppard, L.H. Zyber, R. Zyber K. Aleklett, E. Lund, G. Rudstam G.D. Alkhazov, L.K. Batist, E.Y. Berlovich, Y.S. Blinnikov, Y.V. Yelkin, K.A. Mezilev, Y.N. Novikov, V.N. Pantelejev, A.G. Poljakov, N.D. Schigolev, V.N. Tatasov, V.P. Afanasjev, K.Y. Gromov, M. Jachim, M. Janicki, V.G. Kalinnikov, J. Kormicki, A. Potempa, E. Rurarz, F. Tarkanyi, Y.V. Yushkievich N.M. Antoneva, V.M. Vinogradov, E.P. Grigorev, P.P. Dimitrev, A.V. Zolotavin, G.S. Katichin, N.N. Krasnov, V.M. Makarov J.N. Barkman, J.E. McFee, T.J. Kennett, W.V. Prestwich G.C. Ball, W.G. Davies, J.S. Forster, H.R. Andrews, D. Horn, W. McLatchie S.A. Baranov, V.M. Shatinskii, L.V. Chistyakov Z. Berant, Y. Birenbaum, R. Moreh, see NUIMA 166(1979)81, and PrvCom AHW February 1980 T. Borello-Lewin, O. Dietsch P. Brodeur, B.P. Pathek, S.K. Mark R.E. Brown, J.A. Cizewski, E.R. Flynn, J.W. Sunier F. Braumandl, K. Schreckenbach, T. von Egidy F. Braumandl, T. von Egidy, D.D. Warner P.M. Brewste C.P. Browne, et al D.G. Burke, G. Løvhøiden, E.R. Flynn, J.W. Sunier R.F. Casten, M.R. MacPhail, W.R. Kane, D. Breitig, K. Schreckenbach, J.A. Cizewski C.N. Davids, C.A. Gagliardi, M.J. Murphy, E.B. Norman C.N. Davids K.R.S. Devan, C.E. Brient R.E. Doebler, W.M. McHarris, W.H. Kelly F. Dubbers, L. Funke, P. Kemnitz, K.D. Schilling, H. Strusny, E. Will, G. Winter, M.K. Balodis R.B. Firestone, R.C. Pardo, W.C. McHarris E.R. Flynn, D.L. Hansen, R.A. Hardekopf G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1979Fo10 1979Ge02 1979Ha09 1979Ha10 NUPAB PRVCA ZPAAD NUPAB 323, 19, 290, 318, 205 2224 113 29 1979Ha26 PRVCA 19, 2332 1979Ha32 1979Ho10 PRVCA ZPAAD 20, 291, 345 53 1979Ho27 1979Ik06 1979Ik07 1979Io01 NUPAB JUPSA JUPSA NUPAB 330, 47, 47, 313, 429 1039 1389 283 1979Ja21 1979Ka.A 1979Ke02 NUPAB 325, P-Lansing ZPAAD 289, 337 39 407 1979Ke.D 1979Ko10 P-Brookhaven CJPHA 57, 646 266 1979Pe17 1979Pi08 NUPAB NUPAB 332, 321, 95 25 1979Pl06 NUPAB 332, 29 1979Ry.A 1979Sa.A 1979Sc09 P-Lansing AnRpt KVI NUPAB 318, 249 1979Sc11 ZPAAD 290, 359 1979Sc22 NUPAB 326, 65 1979Sw01 NUIMA 1979Ta.B BAPSA 1979To06 PRVCA 159, 24, 19, 407 836 2399 20, 19, 20, 1902 431 177 944 316, 5, 313, 13 1723 385 1979To18 1979Ve.A 1979Vi01 1979Vo05 PRVCA P-Lansing PRVCA PRVCA 1979Wa04 NUPAB 1979Wa22 JPHGB 1979We02 NUPAB 253 615 B. Fogelberg, P. Carlé D.F. Geesaman, R.L. McGrath, J.W. Noé, R.E. Malmin H.H. Hansen, E. Cellen, G. Grosse, D. Mouchel, A. Larsen, R. Vaninbroukx E. Hagberg, P.G. Hansen, P. Hornshøj, B. Jonson, S. Mattsson, P. Tidemand-Petersson, ISOLDE P.E. Haustein, H.-C. Hseuh, R.L. Klobuchar, E.M. Franz, S. Katcoff, L.K. Peker J.E. Halvarson, W.H. Johnson,Jr. S. Hofmann, W. Faust, G. Münzenberg, W. Reisdorf, P. Armbruster, K. Güttner, H. Ewald J. Honkanen, M. Kortelahti, K. Valli, K. Eskola, A. Hautojärvi, K. Vierinen Y. Ikeda, H. Yamamoto, K. Kawade, T. Takeuchi, T. Katoh, T. Nagahara Y. Ikeda, H. Yamamoto, K. Kawade, T. Katoh, T. Nagahara V.A. Ionescu, J. Kern, R.F. Casten, W.R. Kane, I. Ahmad, J. Erskine, A.M. Friedman, K. Katori J. Jänecke, F.D. Becchetti, C.E. Thorn E. Kashy, W. Benenson, J.A. Nolen,Jr., R.G.H. Robertson U. Keyser, H. Berg, F. Münnich, K. Hawerkamp, H. Schrader, B. Pfeiffer, E. Monnand M.J. Kenny, M.L. Stelts, R.E. Chrien K.S. Kozier, K.S. Sharma, R.C. Barber, J.W. Barnard, R.J. Ellis, V.P. Derenchuk P. Peuser, H. Otto, N. Kaffrell, G. Nyman, E. Roeckl J.A. Pinston, W. Mampe, R. Rousille, K. Schreckenbach, D. Heck, H.G. Börner, H.R. Koch, S. Andre, D. Barnéoud A. Plochocki, G.M. Gowdy, R. Kirchner, O. Klepper, W. Reisdorf, E. Roeckl, P. Tidemand-Petersson, J. Żylicz, U.J. Schrewe, R. Kantus, R.-D. von Dincklage, W.D. Schmidt-Ott A. Rytz A. Saha, R.H. Siemsen, J.W. Smits, J. Van Popta, and PrvCom AHW K.-H. Schmidt, W. Faust, G. Münzenberg, H.-G. Clerc, W. Lang, K. Pielenz, D. Vermeulen, H. Wohlfarth, H. Ewald, K. Güttner F. Schussler, J. Blachot, E. Monnand, B. Fogelberg, S.H. Feenstra, J. van Klinken, G. Jung, K.D. Wünsch D. Schardt, R. Kirchner, O. Klepper, W. Reisdorf, E. Roeckl, P. TidemandPetersson, G.T. Ewan, E. Hagberg, B. Jonson, S. Mattsson, G. Nyman Z.E. Switkowski, R.J. Petty, J.C.P. Heggie, G.J. Clark R.W. Tarara, J.D. Zumbro, C.P. Browne K.S. Toth, M.A. Ijaz, C.R. Bingham, L.L. Riedinger, H.K. Carter, D.C. Sousa K.S. Toth, Y.A. Ellis, D.C. Sousa, H.K. Carter, D. Sen, E.F. Zganjar J. Verplancke, D. Vandeplassche, M. Huyse, K. Cornelis, G. Lhersonneau D.J. Vieira, R.A. Gough, J. Cerny T. von Egidy, J.A. Cizewski, C.M. McCullagh, S.S. Malik, M.L. Stelts, R.E. Chrien, D. Breitig, R.F. Casten, W.R. Kane, G.J. Smith D.D. Warner, W.F. Davidson, H.G. Börner, R.F. Casten, A.I. Namenson D.D. Warner, W.F. Davidson, W. Gelletly D. Weber, G.M. Crawley, W. Benenson, E. Kashy, H. Nann 1980 1980Ad04 1980Al02 1980Al14 ZPAAD PRVCA ZPAAD 295, 21, 295, 251 705 305 1980Al15 1980An.A 1980Ba.A ZPAAD 295, P-Berkeley Th.-Utrecht 331 134 M. Adachi, A. Muroi, T. Matsuzaki, H. Taketani D.E. Alburger, P. Richards, T.H. Ku G.D. Alkhazov, E.Y. Berlovich, K.A. Mezilev, Y.N. Novikov, V.N. Pantelejev, A.G. Poljakov, K.Y. Gromov, V.G. Kalinnikov, J. Kormicki, A. Potempa, E. Rurarz, F. Tarkanyi K. Aleklett, P. Hoff, E. Lund, G. Rudstam M.S. Antony, A. Huck, G. Klotz, A. Knipper, C. Miehé, G. Walter J.R. Balder 616 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1980Br23 NUPAB 349, 61 1980Bu04 IANFA 44, 79 1980Bu15 PRVCA 22, 1180 1980Ca02 PRVCA 21, 65 1980De02 1980Di07 ZPAAD PRVCA 294, 21, 35 2101 1980Du02 ZPAAD 294, 107 1980Ew03 1980Ga07 1980Gi04 1980Go11 ZPAAD YAFIA PRVCA NUPAB 296, 31, 21, 344, 223 306 2041 1 1980Ha20 1980Ha36 1980Ho29 1980Is02 1980Ja.A 1980Ka19 PRVCA PHSTB CZYPA CJPHA AnRpt KVI PRVCA 22, 22, 30, 58, 22, 247 439 763 168 31 997 1980Ko01 1980Ko25 NUPAB CJPHA 334, 58, 35 1311 1980Li07 1980Lo10 1980Lu04 1980Ma40 NUPAB PHSTB ZPAAD PRVCA 337, 22, 294, 22, 401 203 233 2449 1980Mu12 PRVCA 1980Na12 PYLBB 1980Na14 JPSLB 22, 96, 41, 2204 261 79 1980No01 1980Ox01 1980Pa02 1980Sa11 1980Sc09 PRVCA ZPAAD PRVCA JPHGB PYLBB 21, 294, 21, 6, 91, 1109 389 462 525 46 1980Sh06 1980Sh14 1980St10 1980Ta07 1980Tr04 1980Ve01 1980Ve05 1980Vi.A 1980Vy01 PYLBB CJPHA ZPAAD PRVCA PRVCA ZPAAD NUPAB PrvCom IANFA 91, 58, 295, 21, 22, 294, 344, AHW 44, 211 837 259 1667 17 144 421 1980Ya07 JINCA 42, 1539 67 R.A. Braga, W.R. Western, J.L. Wood, R.W. Fink, R. Stone, C.R. Bingham, L.L. Riedinger A.V. Budzyak, T. Kretsu, V.V. Kuznetsov, N.A. Lebedev, G.I. Lizurei, Y.V. Yushkvich, M. Yanitski G.R. Burleson, G.S. Blanpied, G.H. Daw, A.J. Viescas, C.L. Morris, H.A. Thiessen, S.J. Greene, W.J. Braithwaite, W.B. Cottingame, D.B. Holtkamp, I.B. Moore, C.F. Moore R.F. Casten, G.J. Smith, M.R. MacPhail, D. Breitig, W.R. Kane, M.L. Stelts, S.F. Mughabghab, J.A. Cizewski, H.G. Börner, W.F. Davidson, K. Schreckenbach R. Decker, K.D. Wünsch, H. Wollnik, E. Koglin, G. Siegert, G. Jung A.C. Di Rienzo, H.A. Enge, D.B. Gazes, M.K. Salomaa, A. Sperduto, W. Schier, H.E. Wegner J.P. Dufour, A. Fleury, F. Hubert, Y. Llabador, M.B. Mahourat, R. Bimbert, D. Gardes G.T. Ewan, E. Hagberg, B. Jonson, S. Mattsson, P. Tidemand-Petersson Yu. P. Gangrskii, M.B. Miller, L.V. Mikhailov, I.F. Kharisov J. Gilat, S. Katcoff, L.K. Peker H. Gokturk, N.K. Aras, P. Fettweis, P. Del Marmol, J. Vanhorenbeek, K. Cornelis H.I. Hayakawa, I. Hyman, J.K.P. Lee R. Hanninen, G.U. Din J. Hinzatko, K. Konesny, F. Becvar, E.A. Eissa M.A. Islam, T.J. Kennett, S.A. Kerr, W.V. Prestwich J. Jänecke, E.H.L. Aarts, A.G. Drentje, C. Gaarde, M.H. Harakeh J. Kalifa, G. Berrier-Ronsin, M. Vergnes, G. Rotbard, J. Vernotte, Y. Deschamps, R. Seltz J. Kopecky, R.E. Chrien, H. Liou K.S. Kozier, K.S. Sharma, R.C. Barber, J.W. Barnard, R.J. Ellis, V.P. Derenchuk, H.E. Duckworth H.I. Liou, R.E. Chrien, J. Kopecky, J.A. Konter G. Løvhøiden, D.G. Burke, E.R. Flynn, J.W. Sunier E. Lund, P. Hoff, K. Aleklett, O. Glomset, G. Rudstam W. Mayer, K.E. Rehm, H.J. Körner, W. Mayer, E. Müller, I. Oelrich, H.J. Scheerer, R.E. Segel, P. Sperr, W. Wagner M.J. Murphy, C.N. Davids, E.B. Norman H. Nann, K.K. Seth, S.G. Iversen, M.O. Kaletka, D.B. Barlow, D. Smith F. Naulin, C. Détraz, M. Bernas, D. Guillemaud, E. Kashy, M. Langevin, F. Pougheon, P. Roussel, M. Roy-Stephan E.B. Norman K. Oxorn, B. Singh, S.K. Mark R.C. Pardo, L.W. Robinson, W. Benenson, E. Kashy, R.M. Ronnigen J. Sala-Lizzaraga, J. Byrne U.J. Schrewe, P. Tidemand-Petersson, G.M. Gowdy, R. Kirchner, O. Klepper, A. Plochocki, W. Reisdorf, E. Roeckl, J.L. Wood, J. Żylicz, R. Fass, D. Schardt K.S. Sharma, R.J. Ellis, V.P. Derenchuk, R.C. Barber, H.E. Duckworth M.A.M. Shababuddin, D.G. Burke O. Straume, G. Løvhøiden, D.G. Burke E.M. Takagui, O. Dietzsch R.E. Tribble, D.M. Tanner, A.F. Zeller D. Vermeulen, H.-G. Clerc, W. Lang, K.H. Schmidt, G. Münzenberg R. Vennink, J. Kopecky, P.M. Endt, P.W.W. Glaudemans V.D. Vitman, F.V. Moroz, Yu. Ya. Sergeev, V.K. Tarasov Ts. Vylov, S. Omanov, V. Csaleksandrov, N.B. Badalov, A. Budzyak, V.V. Kuznetsov, A.I. Muminov, Han Ken Mo H. Yamamoto, Y. Ikeda, K. Kawade, T. Katoh, T. Nagahara 1981 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1981Ad02 NUPAB 356, 129 1981Aj02 1981Al03 1981Al20 1981Ar13 PRVCA PRVCA ZPAAD PYLBB 24, 23, 302, 104, 1762 473 241 186 1981Ar.A JINR-P6-81-524 1981Ba53 1981Be03 IANFA PRVCA 45, 23, 727 555 1981Be40 PRVCA 24, 756 1981Bj01 NUPAB 359, 1 1981Bo30 1981Bo.B 1981Bu.A ZPAAD 302, AnRpt Julich P-Samarkand 121 76 621 1981Ci01 PRVCA 23, 1453 1981Co17 1981De22 1981De25 PRVCA ZPAAD ZPAAD 24, 300, 301, 911 251 165 1981De38 1981Dr07 ZPAAD ZPAAD 303, 302, 151 361 1981Eb01 1981El03 1981En07 1981Ew01 ZPAAD PRVCA NUPAB NUPAB 299, 23, 372, 352, 209 480 125 13 1981Fl02 PRVCA 24, 902 1981Ga36 IANFA 45, 1861 1981Gi01 PYLBB 98, 29 1981Ha08 NUPAB 357, 356 1981Ha44 NUPAB 371, 349 1981Ho10 ZPAAD 299, 281 1981Ho17 1981Ho18 1981Ho.A ZPAAD 300, NUIMA 186, P-Helsingor 289 257 190 1981Ho.B PrvCom AHW Oct 1981Hs02 1981Hu03 PRVCA NUPAB 23, 352, 1217 247 1981Jo.A P-Helsingor 265 617 I. Adam, M. Honusek, Z. Hons, V.V. Kuznetsov, T.M. Muminov, R.R. Usmanov, A. Budzyak F. Ajzenberg-Selove, R.E. Brown, E.R. Flynn, J.W. Sunier D.E. Alburger, D.J. Millener, D.H. Wilkinson K. Aleklett, P. Hoff, E. Lund, G. Rudstam Y. Arai, M. Fujioka, E. Tanaka, J. Shinozuka, H. Miyatake, M. Yoshii, T. Ishimatsu, see also NUPAB 420(84)193 K.P. Artamonova, A. Budzyak, E.P. Grigorev, A. Dzumamuratov, A.V. Zolotavin, A.I. Ivanov, V.G. Kalinnikov, V.V. Kuznetsov, V.O. Sergeev, R. Usmanov I.F. Barchuck, V.I. Goyshkin, E.N. Gorban, A.F. Ogorodnik C.E. Bemis,Jr., P.F. Dittner, R.L. Ferguson, D.C. Hensley, F. Plasil, F. Pleasonton M. Bernas, J.C. Peng, H. Doubre, M. Langevin, M.J. Le Vine, F. Pougheon, P. Roussel T. Bjornstad, H.A. Gustafsson, P.G. Hansen, B. Jonson, V. Lindfors, S. Mattsson, A.M. Poskanzer, H.L. Ravn, ISOLDE J. Bonn, P. Hartmann, D. Weskott M. Bogdanovic, T.D. MacMahon, H. Seyfarth M. Budzinski, K. Ya. Gromov, V.V. Kuznetsov, T.M. Muminov, P.R. Usmanov, T. Chazratov J.A. Cizewski, E.R. Flynn, R.E. Brown, D.L. Hanson, S.D. Orbesen, J.W. Sunier T. Cousins, T.J. Kennett, W.V. Prestwich S. Della Negra, C. Deprun, D. Jacquet, Y. Le Beyec R. Decker, K.D. Wünsch, H. Wollnik, G. Jung, J. Münzel, G. Siegert, E. Koglin J. Deslauriers, S.C. Gujrathi, S.K. Mark S. Drissi, S. Andre, J. Genevey, V. Barci, A. Gizon, J. Gizon, J.A. Pinston, J. Jastrzebski, R. Kossakowski, Z. Preibisz I.D.U. Ebong, R.R. Roy Y.A. Ellis-Akovali, K.S. Toth, C.R. Bingham, H.K. Carter, D.C. Sousa G. Engler, R.E. Chrien, H.I. Liou G.T. Ewan, E. Hagberg, P.G. Hansen, B. Jonson, S. Mattsson, H.L. Ravn, P. Tidemand-Petersson E.R. Flynn, F. Ajzenberg-Selove, R.E. Brown, J.A. Cizewski, J.W. Sunier, and erratum PRVCA 25(1982)2851 N. Ganbaatar, J. Kormicki, K.A. Mezilev, Y.N. Novikov, Y.P. Prokofiev, A. Potempa, F. Tarkani F. Girshik, K. Krien, R.A. Naumann, G.L. Struble, R.G. Lanier, L.G. Mann, J.A. Cizewski, E.R. Flynn, T. Nail, R.K. Sheline J.C. Hardy, G.C. Ball, W.G. Davies, J.S. Forster, H. Schmeing, E.T.H. Clifford J.C. Hardy, T. Faestermann, H. Schmeing, J.A. Macdonald, H.R. Andrews, J.S. Geiger, R.L. Graham, K.P. Jackson S. Hofmann, G. Münzenberg, F. Heßberger, W. Reisdorf, P. Armbruster, B. Thuma P. Hoff, K. Aleklett, E. Lund, G. Rudstam P. Hornshøj, H.L. Nielsen, N. Rud, H.L. Ravn S. Hofmann, G. Münzenberg, W. Faust, F. Heßberger, W. Reisdorf, J.R.H. Schneider, P. Armbruster, K. Güttner, B. Thuma C. Hofmeyr, D. Warner, H.G. Börner, G. Barreau, R.F. Casten, M. Stelts, J.S. Dionisio H.-C. Hseuh, E.-M. Franz, P.E. Haustein, S. Katcoff, L.K. Peker M. Huyse, K. Cornelis, G. Lhersonneau, J. Verplancke, W.B. Wolters, K. Heyde, P. Van Isacker, M. Warnquier, G. Wenes, H. Vincx B. Jonson, H. Å. Gustafsson, P.G. Hansen, P. Hoff, P.O. Larsson, S. Mattsson , G. Nyman, H.L. Ravn, D. Schardt 618 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1981Jo.B 1981Ke02 1981Ke03 1981Ke11 1981Ko.A 1981La11 P-Helsingor CJPHA 59, ZPAAD 299, CJPHA 59, PrvCom NDG NUPAB 366, 640 93 323 1212 Oct 449 1981Le23 1981Li12 1981Lo.A 1981Ma30 1981Me17 1981Mi12 PRVCA PRVCA P-Grenoble NUPAB RAACA ZPAAD 370, 29, 301, 2370 260 383 1 93 199 1981Mu06 ZPAAD 300, 107 1981Mu12 ZPAAD 302, 7 24, 24, 1981Na.A P-Helsingor 376 1981Ni08 1981Ox01 1981Pa17 RAACA ZPAAD ZPAAD 29, 303, 302, 113 63 117 1981Ri04 1981Ro02 1981Sa09 1981Sc17 PRVCA PRVCA PRVCA NUPAB 23, 23, 23, 368, 2342 973 1713 153 1981Se11 PYLBB 103, 409 1981Se.A 1981Sm02 1981So06 1981St18 1981Su.A 1981Th04 P-Helsingor PYLBB 102, PRVCA 24, PRVCA 24, Leninst-YF-644 PRVCA 23, 655 114 1615 1785 1981To02 NUPAB 356, 26 1981Va27 IANFA 45, 1861 1981Vo03 NUPAB 365, 26 1981Wa11 NUPAB 362, 1 1981We12 NUPAB 1981Wh03 PYLBB 1981Ya06 JINCA 368, 105, 43, 117 116 855 2720 B. Jonson, O.B. Nielsen, L. Westgaard, J. Żylicz T.J. Kennett, M.A. Islam, W.V. Prestwich T.J. Kennett, W.V. Prestwich, M.A. Islam T.J. Kennett, W.V. Prestwich, M.A. Islam B.K. Koene, R.E. Chrien, M.L. Stets, L.K. Peker M. Langevin, C. Détraz, D. Guillemaud, F. Naulin, M. Epherre, R. Klapisch, S.K.T. Mark, M. de Saint Simon, C. Thibault, F. Touchard M.E. Leino, S. Yashita, A. Ghiorso C.J. Lister, P.E. Haustein, D.E. Alburger, J.W. Olness M.A. Lone S. Matsuki, N. Sakamoto, K. Ogino, Y. Kadota, T. Tanabe, Y. Okuma D.H. Meikrantz, R.J. Gehrke, L.D. McIsaac, J.D. Baker, R.C. Greenwood P. Misaelides, P. Tidemand-Petersson, U.J. Schrewe, I.S. Grant, R. Kirchner, O. Klepper, I.C. Malcolm, P.J. Nolan, E. Roeckl, W.-D. Schmidt-Ott, J.L. Wood G. Münzenberg, S. Hofmann, F.P. Heßberger, W. Reisdorf, K.H. Schmidt, J.R.H. Schneider, P. Armbruster, C.C. Sahm, B. Thuma G. Münzenberg, S. Hofmann, W. Faust, F.P. Heßberger, W. Reisdorf, K.H. Schmidt, T. Kitahara, P. Armbruster, K. Güttner, B. Thuma, D. Vermeulen F. Naulin, C. Détraz, M. Roy-Stephan, M. Bernas, J. de Boer, D. Guillemaud, M. Langevin, F. Pougheon, P. Roussel K. Nishiizumi, R. Gensho, M. Honda K. Oxorn, S.K. Mark A.D. Panagiotou, P.K. Kananis, E.N. Gazis, M. Bernas, C. Détraz, M. Langevin, D. Guillemaud, E. Plagnol B.G. Ritchie, K.S. Toth, H.K. Carter, R.L. Mlekodaj, E.H. Speje R.G.H. Robertson, J.A. Nolen,Jr., T. Chapuran, R. Vodhanel T. Saito, T. Toriyama, M. Kanbe, K. Hisatake D. Schardt, T. Batsch, R. Kirchner, O. Klepper, W. Kurcewicz, E. Roeckl, P. Tidemand-Petersson U. Sennhauser, L. Felawka, T. Kozlowski, H.K. Walter, F.W. Schlepuetz, R. Engfer, E.A. Hermes, P. Heusi, H.P. Isaak, H.S. Pruys, A. Zglinski, W.H.A. Hesseling K.T. Seth L.G. Smith, E. Koets, A.H. Wapstra K. Sofia, B.N. Subba Rao, J.E. Cramfort P. Stephans, E. Mordechai, H.T. Fortune L.A. Sushkov, V.L. Alekseev, L.D. Kabina, I.A. Kondurov, D.D. Uorner C. Thibault, F. Touchard, S. Buttgenbach, R. Klapisch, M. de Saint Simon, H.T. Duong, P. Jacquinot, P. Juncar, S. Liberman, P. Pillet, J. Pinard, J.L. Vialle, A. Pesnelle, G. Huber K.S. Toth, Y.A. Ellis-Akovali, D.M. Moltz, C.R. Bingham, H.K. Carter, D.C. Sousa V.M. Vakhtel, N.A. Golovkov, R.B. Ivanov, M.I. Mikhailova, A.F. Novgorodov, Y.V. Norseev, V.G. Chumin, Y.V. Yushkevich T. von Egidy, G. Barreau, H.G. Börner, W.F. Davidson, J. Larysz, D.D. Warner, P.H.M. Van Assche, K. Nybo, T.F. Thorsteinsen, G. Lovhoiden, E.R. Flynn, J.A. Cizewski, R.K. Sheline, D. Decman, D.G. Burke, G. Sletten, N. Kaffrell, W. Kurcewicz, T. Bjornstad, G. Nyman C. Wagemans, E. Allaert, A. De Clerq, P. D’Hondt, A. De Ruytter, G. Barreau, A. Emsallem H. Weigmann, C. Wagemans, A. Emsallem, M. Ashgar R.E. White, H. Naylor, P.H. Barker, D.M.J. Lovelock, R.M. Smythe H. Yamamoto, Y. Ikeda, K. Kawade, T. Katoh, T. Nagahara 1982 1982Ah01 NUPAB 373, 434 I. Ahmad, E.P. Horwitz G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1982Al07 ZPAAD 305, 185 1982Al19 1982Al29 1982An12 1982Au01 1982Ba15 1982Ba28 NUIMA PRVCA JPHGB NUPAB IANFA NUPAB 197, 26, 8, 378, 46, 380, 383 1157 1659 443 63 189 1982Ba69 1982Be20 1982Be21 IANFA NCIAA PRVCA 46, 33, 25, 2077 273 2848 1982Be.A 1982Bo04 1982Br23 P-Kiev PRVCA PRVCA 25, 26, 127 941 2166 1982Cr01 PYLBB 109, 8 1982De03 PRVCA 25, 146 1982De06 1982De11 1982De36 1982De43 1982Di05 1982En03 1982Ew01 1982Fi10 PRVCA ANPHA ZPAAD ZPAAD NUPAB PRVCA NUPAB NUPAB 25, 7, 307, 308, 378, 25, 380, 385, 504 149 305 243 273 1830 423 505 1982Fl09 1982Gi.A 1982Gr.A 1982Hi14 PRVCA 25, Th.-Mainz P-Amsterdam ZPAAD 309, 2851 1982Ho07 1982Is05 1982Jo03 PRVCA PRVCA JPHGB 25, 25, 8, 2232 3184 1405 1982Ka.A 1982Ko06 1982Kr05 PrvCom PRVCA ZPAAD AHW 25, 304, Jul 1076 307 1982Kr12 NUPAB 386, 245 1982Ku15 ZPAAD 308, 21 1982La22 1982Mi14 1982Mo04 1982Mo10 NUIMA NATUA PRVCA PYLBB 196, 300, 25, 113, 559 414 1276 16 1982Mo12 PRVCA 25, 3218 27 619 G.D. Alkhazov, K.A. Mezilev, Yu. N. Novikov, V.N. Panteleyev, A.G. Polyakov, V.P. Afanasyev, N. Ganbaatar, K. Ya. Gromov, V.G. Kalinnikov, J. Kormicki, A. Latuszynski, A. Potempa, J. Sieniawski, F. Tarkanyi, Yu. V. Yushkevich P.F. AAlkemade, C. Alderliesten, P. De Wit, C. Van der Leun K. Aleklett, P. Hoff, E. Lund, G. Rudstam M.S. Antony G. Audi, M. Epherre, C. Thibault, A.H. Wapstra, K. Bos I.F. Barchuk, V.I. Golyshkin, E.N. Gorban A. Backlin, G. Hedin, B. Fogelberg, M. Saraceno, R.C. Greenwood, C.W. Reich, H.R. Koch, H.A. Baader, H.D. Breitig, O.W.B. Schult, K. Schreckenbach, T. von Egidy, W. Mampe I.F. Barchuk, V.I. Golyshkin, E.N. Gorbinj E. Bellotti, E. Fiorini, C. Liguori, A. Pullia, A. Sarracino, L. Zanotti G. Berrier-Ronsin, M. Vergnes, G. Rotbard, J. Vernotte, S. Fortier, J.M. Maison, R. Tamisier R.B. Begdzanov, K. Sh. Azimov J.D. Bowman, R.E. Eppley, E.K. Hyde D.S. Brenner, M.K. Martel, A. Aprahamian, R.E. Chrien, R.L. Gill, H.I. Liou, M. Shmid, M.L. Stelts, A. Wolf, F.K. Wohn, D.M. Rehfield, H. Dejbakhsh, C. Chung G.M. Crawley, W. Benenson, G. Bertsch, S. Gales, D. Weber, B. Zwieglinsky P. De Gelder, D. De Frenne, E. Jacobs, K. Heyde, S. Fortier, J.M. Maison, M.N. Rao, C.P. Massolo J. Deslauriers, S.C. Gujrathi, S.K. Mark S. Della Negra, C. Deprun, D. Jacquet, Y. Le Beyec S. Della Negra, H. Gauvin, D. Jacquet, Y. Le Beyec S. Della Negra, D. Jacquet, Y. Le Beyec W.R. Dixon, R.S. Storey, A.F. Bielajew H.A. Enge, M. Salomaa, A. Sperduto, J. Ball, W. Schier, A. Graue, A. Graue G.T. Ewan, E. Hagberg, B. Jonson, S. Mattsson, P. Tidemand-Petersson L.K. Fifield, J.L. Durell, M.A.C. Hotchkis, J.R. Leigh, T.R. Ophel, D.C. Weisser E.R. Flynn, F. Ajzenberg-Selove, R.E. Brown, J.A. Cizewski, J.W. Sunier H. Gietz K.Y. Gromov, et al R. Hingmann, H.-G. Clerc, C.C. Sahm, D. Vermeulen, K.H. Schmidt, J.G. Keller R.W. Hoff, W.F. Davidson, D.D. Warner, H.G. Börner, T. von Egidy M.A. Islam, T.J. Kennett, W.V. Prestwich M.G. Johnson, I.S. Grant, P. Misealides, P.J. Nolan, P. Peuser, R. Kirchner, O. Klepper, E. Roeckl, P. Tidemand-Petersson W. Kane, et al R.T. Kouzes, M.M. Lowry, C.L. Bennett, and PrvCom AHW May 1988 H. Kräwinkel, H.W. Becker, L. Buchmann, J. Görres, K.U. Kettner, W.E. Kieser, R. Santo, P. Schmalbrock, H.P. Trautvetter, A. Vlieks,C. Rolfs, J.W. Hammer, R.E. Azuma, W.S. Rodney B. Krusche, K.P. Lieb, H. Daniel, T. von Egidy, G. Barreau, H.G. Börner, R. Brissot, C. Hofmeyr, R. Rascher W. Kurcewicz, E.F. Zganjar, R. Kirchner, O. Klepper, E. Roeckl, P. Komninos, E. Nolte, D. Schardt, P. Tidemand-Petersson R.G. Lanier, L.G. Mann, G.L. Stuble J.-F. Minster, J.-L. Birck, C.J. Allègre S. Mordechai, S. Lafrance, H.T. Fortune D.M. Moltz, K.S. Toth, F.T. Avignone III, H. Noma, B.G. Ritchie, B.D. Kern C.L. Morris, H.T. Fortune, L.C. Bland, R. Gilman, S.J. Greene, W.B. Cottingame, D.B. Holtkamp, G.R. Burleson, C.F. Moore 620 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1982Mo23 1982No06 1982No08 1982Oh04 1982Ol01 1982Pa24 1982Pl05 PRVCA ZPAAD ZPAAD JUPSA NUPAB ZPAAD NUPAB 26, 305, 306, 51, 373, 308, 388, 1914 289 223 43 13 345 93 1982Ra13 1982Ra.A 1982Sc03 ZPAAD PrvCom NUPAB 305, AHW 376, 359 Nov 144 1982Sc14 PRVCA 25, 2888 1982Sc15 PRVCA 25, 3091 1982Sc25 1982Sg01 1982So.A 1982So.B ZPAAD 308, CJPHA 60, P-Kiev AnRpt Julich 183 361 51 54 1982Th01 1982Ti02 PRVCA NUPAB 25, 376, 331 421 1982To02 PYLBB 108, 169 1982To14 1982Va13 1982Vy02 PYLBB NUPAB IANFA 117, 380, 46, 11 261 16 1982Vy03 1982Vy06 IANFA IANFA 46, 46, 834 2066 1982Vy07 IANFA 46, 2239 1982Vy10 YAFIA 36, 812 1982Zu02 1982Zu04 PRVCA PRVCA 26, 26, 965 2668 D.M. Moltz, K.S. Toth, R.E. Tribble, R.E. Neese, J.P. Sullivan E. Nolte, H. Hick E. Nolte, S.Z. Gui, G. Colombo, G. Korschinek, K. Eskola M. Ohshima, Z. Matumoto, T. Tamura J.W. Olness, E.K. Warburton, D.E. Alburger, C.J. Lister, D.J. Millener B. Pahlmann, U. Keyser, F. Münnich, B. Pfeiffer, see also 87Gr. A A. Plochocki, J. Żylicz, R. Kirchner, O. Klepper, E. Roeckl, P. TidemandPetersson, I.S. Grant, P. Misealides M.S. Rapaport, G. Engler, A. Gayer, I. Yoresh A. Raemy, J.C. Dousse, J. Kern, W. Schwitz K. Schreckenbach, A.I. Namenson, W.F. Davidson, T. von Egidy, H.G. Börner, J.A. Pinston, R.K. Smither, D.D. Warner, R.F. Casten, M.L. White, W. Stofl H.H. Schmidt, P. Hungerford, H. Daniel, T. von Egidy, S.A. Kerr, R. Brissot, G. Barreau, H.G. Börner, C. Hofmeyr, K.P. Lieb U.J. Schrewe, E. Hagberg, H. Schmeing, J.C. Hardy, V.T. Koslowsky, K.S. Sharma, E.T.H. Clifford H.J. Scheerer, D. Pereira, A. Chalupka, R. Gyufko A.P. Sguigna, A.J. Larabee, J.C. Waddington L.M. Solin, V.A. Yakovlev, V.N. Kushmin, Yu. A. Nemilov F. Soramel-Stanco, R. Julin, B. Rubio, A. Ercan, P. Kleinheinz, J. Tain, G.P.A. Berg, W. Huerliman, I. Katayama, S.A. Martin, J. Messburger, J.G.M. Roemer, B. Styczen, H.J. Scheerer C.E. Thorn, W.F. Piel,Jr., M.J. LeVine, P.D. Bond, A. Gallmann T.A.A. Tielens, J. Kopecky, F. Stecher-Rasmussen, W. Ratinsky, K. Abrahams, P.M. Endt F. Touchard, P. Guimbal, S. Buttgenbach, R. Klapisch, M. de Saint Simon, J.M. Serre, C. Thibault, H.T. Duong, P. Juncar, S. Liberman, J. Pinard, J.L. Vialle K.S. Toth, Y.A. Ellis-Akovali, D.M. Moltz, R.L. Mlekodaj C. Van der Leun, C. Alderliesten Ts. Vylov, V.M. Gorodzhankin, K. Ya. Gromov, V.G. Kalinnikov, T. Kretsu, V.V. Kuznetsov Ts. Vylov, V.M. Gorodzhankin, K. Ya. Gromov, V.V. Kuznetsov Ts. Vylov, V.G. Kalinnikov, V.V. Kuznetsov, Z.N. Li, A.A. Solnyshkin, Y.U. Yuskevich Ts. Vylov, V.M. Gorodzhankin, K.Y. Gromov, V.V. Kuznetsov, T. Kretsu, N.A. Lebedev, Yu. V. Yushkevich Ts. Vylov, V.M. Gorozhankin, K. Ya. Gromov, A.I. Ivanov, I.F. Uchevatkin, V.G. Chumin J.D. Zumbro, C.P. Browne, J.F. Mateja, H.T. Fortune, R. Middleton J.D. Zumbro, A.A. Rollefson, R.W. Tarara, C.P. Browne 1983 1983Ad05 1983Al06 CZYPA ZPAAD 33, 310, 465 247 1983Al.A 1983Al.B PrvCom AHW P-Moscow Jan 87 1983An15 1983Ay01 1983Be18 1983Be.C 1983Bl16 1983Bo29 JPHGB NUPAB NUPAB PrvCom ZPAAD PYLBB 9, 404, 399, GAu 314, 130, L245 1 131 Sep 199 167 J. Adam, V. Hnatowicz, A. Kugler G.D. Alkhazov, K.A. Mezilev, Yu. N. Novikov, N. Ganbaatar, K. Ya. Gromov, V.G. Kalinnikov, A. Potempa, E. Sieniawski, F. Tarkanyi G.D. Alkhazov G.D. Alkhazov, A.A. Akhmonen, L. Kh. Batist, Yu. S. Blinnikov, N. Ganbataar, K. Ya. Gromov, Yu. V. Elkin, V.G. Kalinnikov, K.A. Mezilev, F.V. Moroz, Yu. N. Novikov, A.M. Nurmukhamedov, V.N. Panteleev, A.G. Polyakov, A. Potempa, E. Senyavski, V.K. Tarasov, F. Tarkani M.S. Antony, J. Britz, J.B. Buep, A. Papp J. Äystö, J. Honkanen, W. Trzaska, K. Eskola, K. Vierinen, S. Messelt H. Behrens, P. Christmas M. Bernas, et al J. Blomqvist, A. Kerek, B. Fogelberg P.D. Bond, R.F. Casten, D.D. Warner, D. Horn G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1983Bu03 1983Ca04 1983Ch08 1983Ch39 CJPHA PRVCA ZPAAD PRVCA 61, 27, 310, 28, 460 1310 135 2099 1983Ch47 1983Ci01 1983De03 1983De04 NIMAE PRVCA PRVCA NUPAB 215, 27, 27, 394, 397 1040 892 378 1983De17 1983De20 ZPAAD NUPAB 312, 401, 209 397 1983De28 NUPAB 404, 225 1983De29 1983Do11 1983En03 1983Fe06 1983Fl06 1983Fo.B 1983Ga.A NUPAB 404, ZPAAD 313, NSENA 85, ZPAAD 314, PRVCA 28, PrvCom AHW P-Moscow 250 207 139 159 575 Jun 90 1983Ge08 1983Gn01 1983Gr01 1983Ha06 1983Ha35 1983Hi08 NIMAE NUPAB PYLBB NUPAB IJARA NUPAB 211, 406, 120, 395, 34, 404, 89 29 63 152 1241 51 1983Ho08 NUPAB 398, 130 1983Hu11 ZPAAD 313, 325 1983Hu12 ZPAAD 313, 337 1983Hu13 ZPAAD 313, 349 1983Ia02 1983Jo04 CJCHA NUPAB 61, 396, 694 479c 1983Ke.A P-Florence 1983La23 PYLBB 130, 251 1983Le.A 1983Li11 Th.-Helsinki PRVCA 28, 2127 1983Mo09 1983Ni05 1983Og.A 1983Pa.A 1983Po10 1983Pu01 1983Ra04 1983Ra.A 1983Re05 PRVCA 28, ZPAAD 312, JINR-D7-83-644 Th.-Berkeley NUPAB 411, NUPAB 399, PRVCA 27, P-Florence PRVCA 27, B118 623 265 65 190 1188 I-1 3002 621 D.G. Burke, I. Nowikov, Y.K. Peng, J.C. Yanch R.F. Casten, D.D. Warner, G.M. Gowdy, N. Rofail, K.P. Lieb A. Chalupka, H. Vonach, E. Hueges, H.J. Scheerer C. Chung, W.B. Walters, D.S. Brenner, A. Aprahamian, R.L. Gill, M. Shmid, R.E. Chrien, L.-J. Yuan, A. Wolf, Z. Berant P. Christmas, S.M. Judge, T.B. Ryves, D. Smith, G. Winkler J.A. Cizewski, D.G. Burke, E.R. Flynn, R.E. Brown, J.W. Sunier R.A. Dewberry, R.T. Kouzes, R.A. Neumann C. Détraz, M. Langevin, M.C. Goffri-Kouassi, D. Guillemaud, M. Epherre, G. Audi, C. Thibault, F. Touchard D.J. Decman, R.K. Sheline, Y. Tanaka, E.T. Jurney P. De Gelder, D. De Frenne, K. Heyde, N. Kaffrell, A.M. VanDenBerg, N. Blasi, M.N. Harakah, W. Sterrenburg M.G. Delfini, J. Kopecky, J.B.M. de Haas, H.I. Liou, R.E. Chrien, P.M. Endt M.G. Delfini, J. Kopecky, R.E. Chrien, H.I. Liou, P.M. Endt Zs. Dombrádi, A. Krasznahorkay, J. Gulyás T.R. England, W.B. Wilson, R.E. Schenter, F.M. Mann P. Fettweiss, J.C. Dehaes E.R. Flynn, R.E. Brown, F. Ajzenberg-Selove, J.A. Cizewski I. Förster N. Ganbaatar, Ya. Kormitski, K.A. Mezilev, Yu. N. Novikov, A.M. Nurmukhamedov, A. Potempa, E. Senyavski, F. Tarkani W. Gelletly B.E. Gnade, R.E. Fink, J.L. Wood H. Grawe, H. Haas E. Hagberg, J.C. Hardy, H. Schmeing, E.T.H. Clifford, V.T. Koslowsky H.H. Hansen R. Hingmann, H.-G. Clerc, C.-C. Sahm, D. Vermeulen, K.-H. Schmidt, J.G. Kekeller M.A.C. Hotchkis, L.K. Fifield, J.R. Leigh, T.R. Ophel, G.D. Putt, D.C. Weiser P. Hungerford, T. von Egidy, H.H. Schmidt, S.A. Kerr, H.G. Börner, E. Monnand P. Hungerford, T. von Egidy, H.H. Schmidt, S.A. Kerr, H.G. Börner, E. Monnand P. Hungerford, T. von Egidy, H.H. Schmidt, S.A. Kerr, H.G. Börner, E. Monnand R. Iafigliola, M. Chatterjee, H. Dautet, J.K.P. Lee B. Jonson, J.U. Andersen, G.J. Beyer, G. Charpak, A. De Rújula, B. Elbek, H.A. Gustavson, P.G. Hansen, P. Knudsen, E. Laegsgaard, J. Pedersen, H.L. Ravn S.A. Kerr, F. Hoyler, K. Schreckenbach, H.G. Börner, G.G. Colvin, see also P-Knoxville(1984)416 M. Langevin, C. Détraz, D. Guillemaud-Mueller, A.C. Mueller, C. Thibault, F. Touchard, G. Klotz, C. Miehé, G. Walter, M. Epherre, C. Richard-Serre M. Leino (Report HU-P-D37) C.J. Lister, B.J. Varley, D.E. Alburger, P.E. Haustein, S.K. Saha, J.W. Olness, H.G. Price, A.D. Irving S. Mordechai, S. LaFrance, H.T. Fortune J.M. Nitschke, M.D. Cable, W.-D. Zeitz Yu. Ts. Oganessian R.F. Parry DABBB 44,2472(1984) M.G. Porquet, C. Bourgeois, P. Kilcher, J. Sauvage-Letessier, ISOCELE G.P. Putt, L.K. Field, M.A.C. Hotchkis, T.R. Ophel, D.C. Weisser S. Raman, E.T. Jurney, D.A. Outlaw, I.S. Towner K.V. Ramaniah, S.B. Reddy, V.V. Rama Murti, K.L. Narasimham P.L. Reeder, R.A. Warner, R.L. Gill 622 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1983Ro08 NUPAB 401, 41 1983Ru06 NUPAB 399, 163 1983Ru08 1983Sa44 1983Sc18 NUPAB RRALA ZPAAD 407, 58, 310, 60 263 295 1983Sc24 ZPAAD 312, 21 1983Se17 1983Sh06 1983Sh31 IANFA ZPAAD PRVCA 47, 311, 28, 885 71 1712 1983Ta.A 1983Ti02 1983To01 1983To20 BAPSA NUPAB PRVCA NUPAB 28, 403, 27, 411, 658 13 889 209 1983Ts01 1983Ve06 PRVCA IANFA 27, 47, 2397 834 1983Ve.A P-Moscow 1983Vi.A 1983Vo10 1983Vo.A 1983Wa27 P-Moscow ZPAAD 313, PrvCom AHW NUPAB 411, 99 575 167 Jul 81 1983We07 ZPAAD 313, 173 1983Wi14 NUPAB 411, 151 1983Wi.B PrvCom 1983Wo01 PRVCA 1983Wo04 PRVCA AHW 27, 27, Jun 27 1745 1983Wo10 PRLTA 1983Zu01 NUPAB 51, 393, 873 15 M. Rotbard, M. Vergnes, J. Vernotte, G. Berrier-Ronsin, J. Kalifa, R. Tamisier E. Runte, W.-D. Schmidt-Ott, P. Tidemand-Petersson, R. Kirchner, O. Klepper, W. Kurcewicz, E. Roeckl, N. Kaffrell, P. Peuser, K. Rykaczewski, M. Bernas, P. Dessagne, M. Langevin J.F.G.A. Ruyl, P.M. Endt J. Sato, Y. Ohoka, T. Hirose U.J. Schrewe, E. Hagberg, H. Schmeing, J.C. Hardy, V.T. Koslowsky, K.S. Sharma J.R.H. Schneider, S. Hofmann, F.P. Heßberger, G. Münzenberg, W. Reisdorf, P. Armbruster V.A. Sergienko, A.V. Borontsovskii, M.A. Nain K. Shizuma, H. Lawin, K. Sistemich B. Sherrill, K. Beard, W. Benenson, B.A. Brown, E. Kashy, W.E. Ormand, H. Nann, J.J. Kehayias, A.D. Bacher, T.E. Ward R.W. Tarara, C.P. Browne, see BAPSA 28,968 T.A.A. Tielens, J. Kopecky, K. Abrahams, P.M. Endt K.S. Toth Y. Tokunaga, H. Seyfarth, O.W.B. Schult, H.G. Börner, Ch. Hofmeyr, G. Barreau, R. Brissot, Ch. Monkemeyer, U. Kaup J.S. Tsai, T.J. Kennett, W.V. Prestwich G.V. Veselov, N. Ganbaatar, Ya. Kormitski, Yu. N. Novikov, A. Potempa, E. Senyavski, V.A. Sergienko, F. Tarkani G.V. Veselov, N. Ganbaatar, K.A. Mezilev, Yu. N. Novikov, A. Potempa, V.A. Sergienko, F. Tarkanyi, A.G. Teterin V.D. Vitman, F.V. Moroz, S. Yu. Orlov, V.K. Tarasov E. Voth, W.D. Schmidt-Ott, H. Behrens H. Vonach F.B. Waanders, J.P.L. Reinecke, H.N. Jacobs, J.J.A. Smit, M.A. Meyer, P.M. Endt B. Weiss, C.F. Liang, P. Paris, A. Peghaire, A. Gizon, and PrvCom GAu Oct 1983 C.A. Wiedner, R. Haupt, W. Saathoff, J. Haas, R. Gyufko, K.R. Cordell, S.T. Thornton, R.A. Cecil, R.L. Parks C.-A. Wiedner, et al C.J. Woodward, R.E. Tribble, D.M. Tanner J.M. Wouters, H.M. Thierens, J. Äystö, M.D. Cable, P.E. Haustein, R.F. Parry, J. Cerny F.K. Wohn, J.C. Hill, R.F. Petry, H. Dejbakhsh, Z. Berant, R.L. Gill J.D. Zumbro, R.W. Tarara 1984 1984Ah02 1984Al08 NUPAB YAFIA 413, 39, 423 513 1984Al36 IANFA 48, 834 1984An03 1984An17 1984Ay01 NCIAA NCIAA PYLBB 79, 81, 138, 100 414 369 1984Be10 NUPAB 413, 363 1984Bh02 1984Bl.A NCIAA 79, P-Darmstadt 471 134 1984Br.A AnRpt IPN 13 I. Ahmad, J.L. Lerner D.V. Aleksandrov, E.A. Ganza, Yu. A. Glukhov, B.G. Novatskiı̆, A.A. Ogloblin, D.N. Stepanov G.D. Alkhazov, N. Ganbaatar, K. Ya. Gromov, V.K. Kalinnikov, K.A. Mezilev, Yu. N. Novikov, A.M. Nurmhukhamedov, A. Potempa, F. Tarkani M.S. Antony, J. Britz, J.B. Bueb, A. Pape M.S. Antony, J. Britz, J. Bueb, A. Pape J. Äystö, J. Arje, V. Koponen, P. Taskinen, H. Hyvonen, A. Hautojarvi, K. Vierinen M. Bernas, Ph. Dessagne, M. Langevin, J. Payet, F. Pougheon, P. Roussel, W.-D. Schmidt-Ott, P. Tidemand-Petersson, M. Girod P. Bhattacharya F. Blönnigen, G. Bewersdorf, C. Geisse, W. Lippert, B. Pfeiffer, U. Stöhlker, H. Wollnik F. Bragança Gil, C. Bourgeois, P. Kilcher, M.G. Porquet, B. Roussière, J. Sauvage, ISOCELE G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1984Bu14 1984Ca32 PRVCA PRVCA 29, 30, 2339 1671 1984Co19 ZPAAD 319, 107 1984Da.A P-Darmstadt 257 1984De15 1984De16 NUPAB NUPAB 419, 419, 101 165 1984De33 NUPAB 426, 399 1984El05 1984Fa04 PYLBB PYLBB 141, 137, 306 23 1984Fi02 NUPAB 417, 534 1984Fi05 1984Fo19 1984Fo.A PRVCA 29, NUPAB 429, P-Knoxville 2118 205 427 1984Gi09 PRVCA 30, 958 1984Gu19 NUPAB 426, 37 1984Ha20 PYLBB 138, 260 1984Ha27 1984Ha31 NUPAB ZPAAD 420, 317, 351 193 1984Ha.A 1984He.A 1984Ho02 P-Darmstadt Th.-Montreal PRVCA 29, 89 618 1984Ho.A P-Darmstadt 184 1984Ho.B 1984Ia.A 1984Is09 Th.-Canberra P-Darmstadt KURAA 17, 141 132 1984Ka.A P-Alma Ata 128 1984Ke11 1984Ke15 1984Ko10 1984Ko29 1984Kr05 CJPHA PRVCA PRVCA NUPAB NUPAB 1984Kr.B P-Darmstadt 127 1984La03 NUPAB 414, 151 1984La06 NUPAB 413, 236 1984La27 PYLBB 146, 176 1984Li05 1984Li.A NUPAB 417, AnRpt Berkeley 365 62, 30, 29, 427, 417, 861 1840 2343 413 231 623 D.G. Burke F. Calaprice, G.T. Ewan, R.-D. von Dincklage, B. Jonson, O.C. Jonsson, H.L. Ravn M.D. Cohler, D.L. Watson, R. Wadsworth, S.M. Lane, M.J. Smithson, R.E. Brown, J.-C. Peng, N. Stein, J.W. Sunier, D.M. Drake H. Dautet, N. Campeau, J.K.P. Lee, C. Bourgeois, B. Roussière, A. Houdayer J.B.M. De Hass, K. Abrahams, T.A.A. Tielens, H. Postma, W.J. Huiskamp D.J. Decman, H. Grawe, H. Kluge, K.H. Maier, A. Maj, M. Menningen, N. Roy, W. Wiegner Ph. Dessagne, M. Bernas, M. Langevin, G.C. Morrison, J. Payet, F. Pougheon, P. Roussel R.J. Ellis, K.S. Sharma, R.C. Barber, S.R. Loewen, H.E. Duckworth T. Faestermann, A. Gillitzer, K. Hartel, P. Kienle, E. Nolte, and AMCO7,p.177,184 L.K. Fifield, M.A.C. Hotchkis, P.V. Drumm, T.R. Ophel, G.D. Putt, D.C. Weisser B.W. Filippone, C.N. Davids, R.C. Pardo, J. Äystö B. Fogelberg, J. Blomqvist I. Förster, H.G. Börner, P. von Brentano, G.G. Colvin, A.M.I. Haque, S.A. Kerr, R. Rascher, R. Richter, K. Schreckenbach R. Gilman, H.T. Fortune, L.C. Bland, R.R. Kiziah, C.F. Moore, P.A. Seidl, C.L. Morris, W.B. Cottingame D. Guillemaud-Mueller, C. Détraz, M. Langevin, F. Naulin, M. de Saint Simon, C. Thibault, F. Touchard, M. Epherre B.J. Hall, R.J. Ellis, G.R. Dyck, C.A. Lander, R. Beach, K.S. Sharma, R.C. Barber, H.E. Duckworth R. Hanninen R. Haupt, C.-A. Wiedner, G.J. Wagner, K. Wannebo, T.S. Bhatia, H. Hafner, R. Maschuw, W. Saathoff, S.T. Thornton W. Hampel, R. Schlotz D.W. Hetherington R.W. Hoff, T. von Egidy, R.W. Lougheed, D.H. White, H.G. Börner, K. Schreckenbach, G. Barreau, D.D. Warner S. Hofmann, Y.K. Agarwal, P. Armbruster, F.P. Heßberger, P.O. Larsson, G. Münzenberg, K. Poppensieker, W. Reisdorf, J.R.H. Schneider, H.J. Schött M.A.C. Hotchkis R. Iafigliola, H. Dautet, S.W. Xu, J.K.P. Lee, R. Chrien, R. Gill, M. Shmid T. Ishii, H. Yamamoto, M. Yoshida, K. Kawade, H. Miyade, Y. Iwata, T. Katoh, J.-Z. Ruan, Y. Fumakoshi, Y. Kawase, K. Okano V.G. Kalinnikov, V.V. Kuznetsov, V.I. Stegailov, see also PYurmala(1987)p119 T.J. Kennett, W.V. Prestwich, J.S. Tai T.J. Kennett, M.A. Islam, W.V. Prestwich R.T. Kouzes, M.M. Lowry, C.L. Bennett, and PrvCom AHW May 1988 J. Kopecky, M.G. Delfini, R.E. Chrien B. Krusche, K.P. Lieb, L. Ziegler, H. Daniel, T. von Egidy, R. Rascher, H.G. Börner, G. Barreau, D.D. Warner K.-L. Kratz, A. Schröder, H. Ohm, H. Gabelmann, W. Ziegert, B. Steinmüller, B. Pfeiffer M. Langevin, C. Détraz, D. Guillemaud-Mueller, A.C. Mueller, C. Thibault, F. Touchard, M. Epherre R.G. Lanier, R.K. Sheline, G.L. Struble, L.G. Mann, J.A. Cizewski, and erratum NUPAB 427,650 M. Langevin, C. Détraz, M. Epherre, D. Guillemaud-Mueller, B. Jonson, C. Thibault, ISOLDE Y.-F. Liu, K.J. Moody, D. Lee, Y. Morita, G.T. Seaborg, H.R. von Gunten W.X. Li, K.E. Gregorich, R.B. Welch, W. Kot, D. Lee, G.T. Seaborg 624 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1984Lu02 ZPAAD 1984Ma49 ZPAAD 315, 319, 295 287 1984Mu07 ZPAAD 315, 145 1984Ni03 1984Ni16 1984No05 1984Og02 ZPAAD PZETA NUPAB ZPAAD 316, 39, 423, 319, 249 441 197 215 1984Og03 RAACA 37, 113 1984Ox01 1984Pi03 1984Po09 1984Ra09 1984Ro.A ZPAAD NUPAB RRALA PRVCA BAPSA 316, 414, 35, 30, 29, 97 219 23 26 1041 1984Ru06 1984Ru.A NUPAB 419, P-Darmstadt 439 196 1984Ry02 1984Sc06 NIMAE ZPAAD 223, 315, 325 49 1984Sc13 1984Sc18 1984Sc.A 1984Sc.B ZPAAD 316, ZPAAD 317, GSI-84-3 P-Darmstadt 19 305 1984Sc.C P-Darmstadt 229 1984Sh31 1984So03 1984Th08 1984To07 AENGA PRVCA PRVCA PRVCA 56, 29, 30, 30, 245 1556 1442 712 1984To09 PRLTA 53, 1623 1984To11 NUPAB 430, 269 1984Vo01 JPHGB 10, 221 1984Vo07 PRVCA 29, 1243 1984Ya.A Th.-Berkeley 203 E. Lund, B. Fogelberg W.A. Mayer, W. Henning, R. Holzwarth, H.J. Körner, G. Korschinek, W.U. Mayer, G. Rosner, H.J. Scheerer G. Münzenberg, W. Reisdorf, S. Hofmann, Y.K. Agarwal, F.P. Heßberger, K. Poppensieker, J.R.H. Schneider, W.F.W. Schneider, K.-H. Schmidt, H.J. Schött, P. Armbruster, C.-C. Sahm, D. Vermeulen J.M. Nitschke, P.A. Wilmarth, P.K. Lemmertz, W.-D. Zeitz, J.A. Honkanen E.N. Nikolaev, Yu. I. Neronov, M.V. Gorshkov, V.L. Talroze G.J.L. Nooren, C. van der Leun Yu. Ts. Oganessian, A.G. Demin, M. Hussonnois, S.P. Tretyakova, Yu. P. Kharitonov, V.K. Utyonkov, I.V. Shirokovsky, O. Constantinescu, H. Bruchertseifer, Yu. S. Korotkin Yu. Ts. Oganessian, M. Hussonnois, A.G. Demin, Yu. P. Kharitonov, H. Bruchertseifer, O. Constantinescu, Yu. S. Korotkin, S.P. Tretyakova, V.K. Utyonkov, I.V. Shirokovsky, J. Estevez K. Oxorn, S.K. Mark Š. Piskoř, P. Franc, J. Kremenek, W. Schäferlingová P. Polak, L. Lindner S. Raman, W. Ratynski, E.T. Jurney, M.E. Bunker, J.W. Starner G. Rotbard, M. Vergnes, J. Vernotte, G. Berrier Ronsin, S. Gales, G.M. Crawley J.F.A.G. Ruyl, J.B.M. de Haas, P.M. Endt, L. Zybert B. Rubio, R. Julin, A. Ercan, K. Zuber, P. Kleinheinz, J.L. Tain, G.P.A. Berg, G. Hlawatsch, I. Katayama, J. Meissburger, D. Paul, J.G. Roemer, J. Blomqvist A. Rytz, R.A.P. Wiltshire U.J. Schrewe, E. Hagberg, H. Schmeing, J.C. Hardy, V.T. Koslowsky, K.S. Sharma K.-H. Schmidt, C.-C. Sahm, K. Pielenz, H.-G. Clerc U.J. Schrewe, E. Voth, U. Bosch, W.-D. Schmidt-Ott, H. Behrens J. Schneider Thesis U.J. Schrewe, P. Tidemand-Petersson, H. Behrens, H. Dornhöfer, R. Michaelsen, E. Runte, W.-D. Schmidt-Ott, E. Voth D. Schardt, P.O. Larsson, R. Kirchner, O. Klepper, V.T. Koslowsky, E. Roeckl, K. Rykaczewski, P. Kleinheinz, K. Zuber V.M. Shatinsky P.C. Sood C.E. Thorn, J.W. Olness, E.K. Warburton, S. Raman K.S. Toth, D.M. Moltz, E.C. Schloemer, M.D. Cable, F.T. Avignone III, Y.A. Ellis-Akovali K.S. Toth, Y.A. Ellis-Akovali, C.R. Bingham, D.M. Moltz, D.C. Sousa, H.K. Carter, R.L. Mlekodaj, E.H. Spejewski Y. Tokunaga, H. Seyfarth, O.W.B. Schult, S. Brant, V. Paar, D. Vretenar, H.G. Börner, G. Barreau, H. Faust, Ch. Hofmeyr, K. Schreckenbach, R.A. Meyer T. von Egidy, H. Daniel, P. Hungerford, H.H. Schmidt, K.P. Lieb, B. Krusche, S.A. Kerr, G. Barreau, H.G. Börner, R. Brissot, C. Hofmeyr, R. Rascher T. von Egidy, R.W. Hoff, R.W. Lougheed, D.H. White, H.G. Börner, K. Schreckenbach, D.D. Warner, G. Barreau, E. Hungerford S. Yashita LBL-15562 ; Diss. Abstr. 45B(1984)872 1985 1985Ad.A 1985Af.A P-Leningrad P-Leningrad 1985Ah.1 P-Bombay 93 1083 Dz. Adam, T. Dzelev, D. Zakoutski, B. Kratsik, I. Penev V.P. Afanasiev, Yu. S. Blinnikov, N. Ganbaatar, V. Dzeleznyakov, V.G. Kalinikov, Ya. Kormitski, K.A. Mezilev, Yu. N. Novikov, A.M. Nurmudzamedov, V.N. Panteleev, A.G. Polyakov, A. Potempa, F. Tarkani S.A. Ahmad, et al, and 89Ot.1 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1985Al08 NUPAB 438, 482 1985Al11 PRLTA 55, 799 1985Al13 1985Al17 1985An17 1985Ap01 PYLBB PRVCA NCIAA PZETA 157, 32, 88, 42, 350 1358 265 233 1985Au07 1985Ay02 1985Ba57 1985Be17 1985Be50 ZPAAD PRVCA ZPAAD ZPAAD PYLBB 321, 32, 322, 320, 162, 533 1700 457 693 87 1985Bo34 PYLBB 159, 217 1985Bo46 PRLTA 55, 2269 1985Bo49 PYLBB 164, 22 1985Br03 1985Co06 1985Co.B 1985De08 PYLBB PRLTA PrvCom JPHGB 150, 54, AHW 11, 75 1783 Dec L59 1985De14 NUPAB 436, 311 1985De40 1985Dr06 CJPHA NUPAB 63, 441, 966 95 1985Dy04 PYLBB 157, 139 1985El01 NUPAB 435, 34 1985Fi03 1985Fi08 1985Fr01 1985Ge02 NUPAB NUPAB NUPAB JPHGB 440, 437, 433, 11, 531 141 351 1055 1985Ha12 1985He06 PRVCA ZPAAD 31, 321, 1594 317 1985He22 ZPAAD 322, 557 1985He.A 1985Hi.A GSI-85-11 AnRpt GSI 1985Ho21 1985Ho.A PYLBB PrvCom 160, NDG 375 876 1985Hu03 PRVCA 31, 2226 1985Ke08 1985Ke11 ZPAAD PRVCA 322, 32, 121 2148 88 625 G.D. Alkhazov, A.A. Bykov, V.D. Wittmann, V.E. Starodubsky, S.Y. Orlov, V.N. Panteleyev, A.G. Polyakov, V.K. Tarasov T. Altzitzoglou, F. Calaprice, M. Dewey, M. Lowry, L. Piilonen, J. Brorson, S. Hagen, F. Loeser G.D. Alkhazov, A.A. Bykov, V.D. Wittmann, S. Yu. Orlov, V.K. Tarasov D.E. Alburger, J.B. Cumming M.S. Antony, J. Britz, J.B. Bueb, V.B. Ndocko-Ndongué A.M. Apalikov, S.D. Boris, A.I. Golutvin, L.P. Laptin, V.A. Lyubimov, N.F. Myasoedov, V.V. Nagovitsyn, E.G. Novikov, V.Z. Nozik, V.A. Soloshchenko, I.N. Tikhomirov, E.F. Tretyakov G. Audi, R.L. Graham, J.S. Geiger J. Äystö, X.J. Xu, D.M. Moltz, J.E. Reiff, J. Cerny, B.H. Wildenthal A. Baas-May, J.V. Kratz, N. Trautmann F.J. Bergmeister, K.P. Lieb, K. Pampus, M. Uhrmacher W. Benenson, K. Beard, C. Bloch, B. Sherrill, B.A. Brown, A.D. Panagiotou, J. van der Plicht, J.S. Winsfield, C.E. Thorn S. Boris, A. Golutvin, L. Laptin, V. Lubimov, V. Nagovizin, E. Novikov, V. Nozik, V. Soloshenko, I. Tihomirov, E. Tretjakov J.A. Bounds, C.R. Bingham, P. Juncar, H.K. Carter, G.A. Leander, R.L. Mlekodaj, E.H. Spejewski, W.M. Fairbank,Jr. U. Bosch, W.-D. Schmidt-Ott, P. Tidemand-Petersson, E. Runte, W. Hillebrandt, M. Lechle, F.-K. Thielemann, R. Kirchner, O. Klepper, E. Roeckl, K. Rykaczewski, D. Schardt, N. Kaffrell, M. Bernas, Ph. Dessagne, W. Kurcewicz M. Brauner, D. Rychel, R. Gyufko, C.A. Wiedner, S.T. Thornton E. Coenen, K. Deneffe, M. Huyse, P. Van Duppen, J.L. Wood G.G. Colvin K. Deneffe, E. Coenen, M. Huyse, P. Van Duppen, J. Vanhorenbeeck, P. del Marmol, P. Fettweis D.J. Decman, H. Grawe, H. Kluge, K.H. Maier, A. Maj, N. Roy, Y.K. Agarwal, K.P. Blume, M. Guttormsen, H. Hubel, J. Recht V.P. Derenchuk, R.J. Ellis, K.S. Sharma, R.C. Barber, H.E. Duckworth P.V. Drumm, L.K. Fifield, R.A. Bark, M.A.C. Hotchkis, C.L. Woods, P. Maier-Komor G.R. Dyck, R.J. Ellis, K.S. Sharma, C.A. Lander, M.H. Sidky, R.C. Barber, H.E. Duckworth R.J. Ellis, R.C. Barber, G.R. Dyck, B.J. Hall, K.S. Sharma, C.A. Lander, H.E. Duckworth, and PrvCom AHW October 1991 L.K. Fifield, C.L. Woods, R.A. Bark, P.V. Drumm, M.A.C. Hotchkis L.K. Fifield, P.V. Drumm, M.A.C. Hotchkis, T.R. Ophel, C.L. Woods R. Franke, H. Kockskamper, B. Steinheuer, K. Wingender, W. von Witsch W. Gelletly, J.R. Larysz, H.G. Börner, R.F. Casten, W.F. Davidson, W. Mampe, K. Schreckenbach, D.D. Warner F.X. Hartmann, R.A. Naumann F.P. Heßberger, G. Münzenberg, S. Hofmann, W. Reisdorf, K.-H. Schmidt, H.J. Schmidt, P. Armbruster, R. Hingmann, B. Thuma, D. Vermeulen F.P. Heßberger, G. Münzenberg, S. Hofmann, Y.K. Agarwal, K. Poppensieker, W. Reisdorf, K.-H. Schmidt, J.R.H. Schneider, W.F.W. Schneider, H.J. Schött, P. Armbruster, B. Thuma, C.-C. Sahm, D. Vermeulen F.P. Heßberger R. Hingmann, W. Kuehn, V. Metag, R. Novotny, A. Ruckelshausen, H. Stroeher, F.P. Heßberger, S. Hofmann, G. Münzenberg, W. Reisdorf E. Hourani, M. Hussonnois, L. Stab, L. Brillard, S. Gales, J.P. Schapira C. Hofmeyr, C. Franklyn, G. Barreau, H.G. Börner, R. Brissot, H. Faust, K. Schreckenbach A. Huck, G. Klotz, A. Knipper, C. Miehé, C. Richard-Serre, G. Walter, A. Poves, H.L. Ravn, G. Marguier T.J. Kennett, W.V. Prestwich, J.S. Tsai T.J. Kennett, W.V. Prestwich, J.S. Tsai 626 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1985Kh04 1985Ko47 1985Kr06 PYLBB NIMBE NUPAB 156, 12, 439, 155 325 219 1985La17 1985Le10 IJARA PRVCA 36, 32, 443 277 1985Li02 PRLTA 1985Ma54 JPHGB 54, 11, 285 1231 1985Ma59 PRVCA 1985Mu11 ZPAAD 32, 322, 2215 227 1985No03 1985Oh06 PRVCA PYLBB 31, 160, 1937 322 1985Pf.A P-Birmingham 1985Pi03 1985Re01 1985Re02 PRVCA PRVCA NUPAB 31, 31, 435, 1032 1029 333 1985Re.A 1985Ry02 P-Chicago ZPAAD 322, 171 263 1985Sa15 1985Sc09 ZPAAD ZPAAD 321, 320, 255 595 1985Sc16 1985Si25 NIMAE JPSLB 236, 225 46, L1095 1985So03 PRVCA 31, 1801 1985St02 PRVCA 32, 582 1985Ta.A 1985Ti01 1985Ti02 P-Swansea ZPAAD 320, NUPAB 437, 343 405 342 1985To10 NUPAB 439, 427 1985Ts01 1985Ts02 1985Uh01 1985Va03 1985Va.A 1985Vo03 1985Vo13 1985Vo15 1985Wh03 1985Wi07 ZPAAD 322, ZPAAD 322, NIMBE 9, PYLBB 154, JINR-R6-85-22 PRVCA 31, NUPAB 445, ZPAAD 322, MTRGA 21, ZPAAD 321, 295 597 234 354 75 1510 113 669 193 179 S. Khan, Th. Kihm, K.T. Knöpfle, G. Mairle, V. Bechtold, L. Friedrich P.J.J. Kok, K. Abrahams, H. Postma, W.J. Huiskamp B. Krusche, Ch. Winter, K.P. Lieb, P. Hungerford, H.H. Schmidt, T. von Egidy, H.J. Scheerer, S.A. Kerr, H.G. Börner R.M. Lambrecht, S. Mirzadeh R.S. Lee, J.H. Hamilton, A.V. Ramayya, A.P. de Lima, D.L. Sastry, K.S.R. Sastry, E.H. Spejewski, R.L. Mlekodaj, H.K. Carter, W.D. Schmidt-Ott, J. Lin, C.R. Bingham, L.L. Riedinger, E.F. Zganjar, J.L. Weil, B.D. Kern, A.C. Xenoulis, R.W. Fink, Sun Xi-jun, Guo Junsheng, Cho Chi-cheng, Pan Zong-you, Guo Ying-xian E. Lippmaa, R. Pikver, E. Suurmaa, J. Past, J. Puskar, I. Koppel, A. Tammik T.D. MacMahon, G.R. Massoumi, T. Mitsunari, M. Thein, O. Chalhoub, D. Breitig, H.A. Baader, U. Heim, H.R. Koch, L. Wimmwer, H. Seyfarth, K. Schreckenbach, G.B. Orr, G.J. Smith, W.R. Kane, I.A. Kondurov, P.A. Sushkov, Yu. E. Loginov, D. Rabenstein, M. Bogdanovic J. Markey, F. Boehm G. Münzenberg, S. Hofmann, H. Folger, F.P. Heßberger, J. Keller, K. Poppensieker, B. Quint, W. Reisdorf, K.-H. Schmidt, H.J. Schött, P. Armbruster, M.E. Leino, R. Hingmann E.B. Norman T. Ohi, M. Nakajima, H. Tamura, T. Matsuzaki, T. Yamazaki, O. Hashimoto, R.S. Hayano B. Pfeiffer, K.-L. Kratz, H. Gabelmann, W. Ziegert, V. Harms, B. Leist, and 93Ru01 A.A. Pilt, J.A. Cameron, R.B. Schubank, E.E. Habib P.L. Reeder, R.A. Warner, R.M. Liebsch, R.L. Gill, A. Piotrowski J.P.L. Reinecke, F.B. Waanders, P. Oberholzer, P.J.C. Janse van Rensburg, J.A. Cilliers, J.J.A. Smit, M.A. Meyer, P.M. Endt P.L. Reeder, et al, and 93Ru01 K. Rykaczewski, I.S. Grant, R. Kirchner, O. Klepper, V.T. Koslowsky, P.O. Larsson, E. Nolte, G. Nyman, E. Roeckl, D. Schardt, L. Spanier, P. Tidemand-Petersson, E.F. Zganjar, J. Żylicz M. Samri, J.G. Costa, G. Klotz, D. Magnac, R. Selz, J.P. Zirnfeld U.J. Schrewe, H. Dornhoefer, E. Runte, W.D. Schmidt-Ott, T. TidemandPetersson H. Schölermann, B.R.L. Siebert C. Signarbieux, G. Simon, J. Trochon, F. Brisard and PrvCom GAu Jan 1988 L.P. Somerville, M.J. Nurmia, J.M. Nitschke, A. Ghiorso, E.K. Hulet, R.W. Lougheed R.E. Stone, C.E. Bingham, L.L. Riedinger, R.W. Lide, H.K. Carter, R.L. Mlekosdaj, E.H. Spejewski V.L. Talrose, E.N. Nikolaev P. Tidemand-Petersson, E. Runte, W.-D. Schmidt-Ott, U.J. Schrewe P. Tidemand-Petersson, R. Kirchner, O. Klepper, E. Roeckl, D. Schardt, A. Plochocki, J. Żylicz Y. Tokunaga, H. Seyfarth, R.A. Meyer, O.W.B. Schult, H.G. Börner, G. Barreau, H.R. Faust, K. Schreckenbach, S. Brant, V. Paar, M. Vouk, D. Vretenar J.S. Tsai, T.J. Kennett, W.V. Prestwich J.S. Tsai, W.V. Prestwich, T.J. Kennett M. Uhrmacher, K. Pampus, F.J. Bergmeister, D. Purschke, K.P. Lieb P. Van Duppen, E. Coenen, K. Deneffe, M. Huyse, J.L. Wood E.V. Vasileva, et al R.-D. von Dincklage, J. Gerl, H.L. Ravn, G.J. Beyer R.-D. von Dincklage, H.J. Hay, H.L. Ravn T. von Egidy, H.G. Börner, F. Hoyler R.E. White, P.H. Barker, D.M.J. Lovelock P.A. Wilmarth, J.M. Nitschke, P.K. Lemmertz, R.B. Firestone G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1985Wo01 PYLBB 150, 79 1985Wo04 NUPAB 437, 454 627 P.J. Woods, R. Chapman, J.L. Durell, J.N. Mo, N.E. Sanderson, R.A. Cunningham, B.R. Fulton C.L. Woods, L.K. Fifield, R.A. Bark, P.V. Drumm, M.A.C. Hotchkis 1986 1986Ad07 1986Ag.A 1986Au02 IANFA 50, P-Charkov NUPAB 449, 855 98 491 1986Ba26 1986Ba72 1986Be35 PRVCA IANFA NUPAB 34, 50, 460, 362 1898 352 1986Be53 1986Bj01 UFZHA NUPAB 31, 453, 1773 463 1986Bo28 ZPAAD 325, 149 1986Bo41 NUPAB 460, 373 1986Bo46 PHSTB 34, 591 1986Bu18 1986Co12 1986Cu01 1986Da.A 1986De13 1986De14 1986Ek01 1986Fi06 PRVCA 34, ZPAAD 324, PRLTA 56, AnRpt McGill NUPAB 454, NUPAB 454, PHSTB 34, NUPAB 453, 2316 485 34 29 1 48 614 497 1986Ga19 1986Gi07 PRVCA PRLTA 34, 56, 1663 1874 1986Gr01 1986Ha22 PRLTA NUPAB 56, 455, 819 231 1986Hu01 PRLTA 56, 313 1986Hu05 PRVCA 34, 1394 1986Ka43 NUPAB 460, 437 1986Ke03 NUPAB 452, 173 1986Ke14 1986Ko19 1986Li11 NIMAE ZPAAD NATUA 249, 324, 320, 366 271 246 1986Lo16 JCOMA 122, 461 1986Ma40 PRVCA 34, 729 J. Adam, V. Vagner, M. Gonusek, B. Kratick V.A. Ageev, V.S. Belyavenko, V.A. Dzeltonodzskii, A.A. Klyushnikov G. Audi, A. Coc, M. Epherre, G. Le Scornet, C. Thibault, F. Touchard, ISOLDE S.W. Barwick, P.B. Price, H.L. Ravn, E. Hourani, M. Hussonnois K.A. Baskova, G.I. Borisov, A.B. Vovk, T.M. Gerus, L.I. Go A.V. Belozyorov, C. Borcea, Z. Dlouhy, A.M. Kalinin, R. Kalpakchieva, Nguyen Hoai Chau, Yu. Ts. Oganessian, Yu. E. Penionzhkevich V.S. Belyavenko, G.P. Borozenets, I.N. Vishnevsky, V.A. Zheltonozhsky T. Björnstad, M.J.G. Borge, J. Blomqvist, R.D. von Dincklage, G.T. Ewan, P. Hoff, B. Jonson, K. Kawade, A. Kerek, O. Klepper, G. Løvhøiden, S. Mattsson, G. Nyman, H.L. Ravn, G. Rudstam, K. Sistemich, O. Tengblad, ISOLDE V.R. Bom, P.C. Coops, R.W. Hollander, E. Coenen, K. Deneffe, P. Van Duppen, M. Huyse M.J.G. Borge, M. Epherre-Rey-Campagnolle, D. Guillemaud-Mueller, B. Jonson, M. Langevin, G. Nyman, C. Thibault, ISOLDE M.J.G. Borge, A. De Rújula, P.G. Hansen, B. Jonson, G. Nyman, H.L. Ravn, K. Riisager, ISOLDE B.L. Burks, R.L. Varner, E.J. Ludwig E. Coenen, K. Deneffe, M. Huyse, P. Van Duppen, J.L. Wood M.S. Curtin, L.H. Harwood, J.A. Nolen, B. Sherrill, Z.Q. Xie, B.A. Brown H. Dautet, R. Turcotte, S.K. Mark H.P.L. De Esch, C. van der Leun H.P.L. De Esch, J.B.J.M. Lanen, C. van der Leun B. Ekström, B. Fogelberg, P. Hoff, E. Lund, A. Sangiyavanish L.K. Fifield, C.L. Woods, W.N. Catford, R.A. Bark, P.V. Drumm, K.T. Keoghan C.A. Gagliardi, D.R. Semon, R.E. Tribble, L.A. Van Ausdeln R.L. Gill, R.F. Casten, D.D. Warner, A. Piotrowski, H. Mach, J.C. Hill, K.K. Wohn, J.A. Winger, R. Moreh G.L. Greene, E.G. Kessler,Jr., R.D. Deslattes, H. Börner A.M.I. Hague, R.F. Casten, I. Förster, A. Gelberg, R. Rascher, R. Richter, P. von Brentano, G. Barreau, H.G. Börner, S.A. Kerr, K. Schreckenbach, D.D. Warner E.K. Hulet, J.F. Wild, R.J. Dougan, R.W. Lougheed, J.H. Landrum, A.D. Dougan, M. Schädel, R.L. Hahn, P.A. Baisden, C.M. Henderson, R.J. Dupzyk, K. Sümmerer, G.R. Bethune E.K. Hulet, R.W. Lougheed, J.F. Wild, R.J. Dougan, K.J. Moody, R.L. Hahn, C.M. Henderson, R.J. Dupzyk, G.R. Bethune N. Kaffrell, P. Hill, J. Rogowski, H. Tetzlaff, N. Trautmann, E. Jacobs, P. De Gelder, D. De Frenne, K. Heyde, G. Skarnemark, J. Alstad, N. Blasi, M.N. Harakeh, W.A. Sterrenburg, K. Wolfsberg J.G. Keller, K.-H. Schmidt, F.P. Heßberger, G. Münzenberg, W. Reisdorf, H.-G. Clerc, C.-C. Sahm, and PrvCom K.-H. Schmidt to AHW November 1992 T.J. Kennett, W.V. Prestwich, J.S. Tsai P.J.J. Kok, J.B.M. de Haas, K. Abrahams, H. Postma, W.J. Huiskamp M. Lindner, D.A. Leich, R.J. Borg, G.P. Russ, J.M. Bazan, D.S. Simons, A.R. Date R.W. Lougheed, E.K. Hulet, R.J. Dougan, J.F. Wild, R.J. Dupzyk, C.M. Henderson, K.J. Moody, R.L. Hahn, K. Summerer, G. Bethune L.G. Mann, R.G. Lanier, G.L. Struble, R.A. Naumann, R.T. Kouzes 628 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1986Ma42 PRVCA 1986Mi08 PRVCA 34, 33, 1117 1736 1986Mi14 1986Pr03 PRVCA NUPAB 33, 455, 2204 1 1986Pr05 1986Ru04 ZPAAD ZPAAD 325, 324, 321 27 1986Ru05 ZPAAD 324, 119 1986Ry04 1986Sc16 NIMAE NUPAB 253, 454, 47 267 1986Sc25 JPHGB 12, 411 1986Se04 PYLBB 1986Sm05 ZPAAD 173, 324, 397 283 1986To12 PYLBB 178, 150 1986Ts04 1986Ul02 CJPHA ZPAAD 64, 325, 1569 247 1986Va08 PRVCA 33, 1141 1986Ve.A 1986Ve.B P-Charkov P-Charkov 1986Vi09 PRLTA 107 138 57, 3253 1986Wa17 RAEFB 1986Wi15 ZPAAD 1986Wi16 NUPAB 94, 325, 460, 27 485 501 1986Wo07 PYLBB 182, 297 1986Ya17 181, 169 PYLBB H. Mach, R.L. Gill, D.D. Warner, A. Piotrowski, R. Moreh C. Miehé, Ph. Dessagne, P. Baumann, A. Huck, G. Klotz, A. Knipper, G. Walter, C. Richard-Serre D. Miljanic, S. Blagus, M. Zadro P.T. Prokofjev, V.A. Bondarenko, T.V. Guseva, N.D. Kramer, L.I. Simonova, J.J. Tambergs, K. Schreckenbach, W.F. Davidson, J.A. Pinston, D.D. Warner, P.H.M. van Assche, A.M.J. Spits W.V. Prestwich, T.J. Kennett, J.S. Tsai B. Rubio, A. Ercan, G. de Angelis, P. Kleinheinz, J.L. Tain, B. Brinkmoeller, D. Paul, J. Meissburger, L.G. Mann, D.J. Decman, T.N. Massey, G.L. Struble, H.J. Scheerer, J. Blomqvist E. Runte, T. Hild, W.-D. Schmidt-Ott, U.J. Schrewe, P. TidemandPetersson, R. Michaelsen A. Rytz, R.A.P. Wiltshire, M. King H.H. Schmidt, T. von Egidy, H.J. Scheerer, P. Hungerford, H.G. Börner, S.A. Kerr, K. Schreckenbach, R.F. Casten, W.R. Kane, D.D. Warner, A. Chalupka, M.K. Balodis, T.V. Guseva, P.T. Prokofjev, J.J. Tambergs H.H. Schmidt, W. Stöffl, T. von Egidy, P. Hungerford, H.J. Scheerer, K. Schreckenbach, H.G. Börner, D.D. Warner, R.E. Chrien, R.C. Greenwood, C.W. Reich K.K. Seth, S. Iversen, M. Kaletka, D. Barlow, A. Saha, R. Soundranayagam R.J. Smith, P.J. Woods, R. Chapman, J.L. Durell, J.N. Mo, B.R. Fulton, R.A. Cunningham K.S. Toth, Y.A. Ellis-Akovali, J.M. Nitschke, P.A. Wilmarth, P.K. Lemmertz, D.M. Moltz, F.T. Avignone III J.S. Tsai, W.V. Prestwich, T.J. Kennett G. Ulm, S.K. Bhattacherjee, P. Dabkiewicz, G. Huber, H.-J. Kluge, T. Kuhl, H. Lochmann, E.-W. Otten, K. Wendt, S.A. Ahmad, W. Klempt, R. Neugart, ISOLDE G. Vandenput, P.H.M. van Assche, L. Jacobs, J.M. van den Cruyce, R.K. Smither, K. Schreckenbach, T. von Egidy, D. Breitig, H.A. Baader, H.R. Koch G.V. Veselov, K.A. Mezilev, Yu. N. Novikov, A.V. Lopov, V.A. Sergienko G.V. Veselov, K.A. Mezilev, Yu. N. Novikov, A.V. Lopov, Yu. Ya. Sergeev, V.A. Sergienko, V.I. Tichonov D.J. Vieira, J.M. Wouters, K. Vaziri, R.H. Krauss,Jr., H. Wollnik, G.W. Butler, F.K. Wohn, A.H. Wapstra R.A. Warner, P.L. Reeder P.A. Wilmarth, J.M. Nitschke, R.B. Firestone, J. Gilat Ch. Winter, B. Krusche, K.P. Lieb, H.H. Schmidt, T. von Egidy, P. Hungerford, F. Hoyler, H.G. Börner P.J. Woods, R. Chapman, J.L. Durell, J.N. Mo, R.J. Smith, B.R. Fulton, R.A. Cunningham, P.V. Drumm, L.K. Fifield S. Yasumi, M. Ando, H. Maezawa, H. Kitamura, T. Ohta, F. Ochiai, A. Mikuni, M. Maruyama, M. Fujioka, K. Ishii, T. Shinozuka, K. Sera, T. Omori, G. Izawa, M. Yagi, K. Masumoto, K. Shima, T. Mukoyama, Y. Inagaki, I. Sugai, A. Masuda, O. Kawakami 1987 1987Aj.A 1987Ba52 PrvCom NUPAB 1987Bo07 PRLTA AHW 472, Jul 445 58, 2019 F. Ajzenberg-Selove M.K. Balodis, P.T. Prokofjev, N.D. Kramer, L.I. Simonova, K. Schreckenbach, W.F. Davidson, J.A. Pinston, P. Hungerford, H.H. Schmidt, H.J. Scheerer, T. von Egidy, P.H.M. van Assche, A.M.J. Spits, R.F. Casten, W.R. Kane, D.D. Warner, J. Kern S. Boris, A. Golutvin, L. Laptin, V. Lubimov, V. Nagovizin, V. Nozik, E. Novikov, V. Soloshenko, I. Tihomirov, E. Tretjakov, N. Myasoedov G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1987Bo24 NUPAB 470, 13 1987Bo29 HYIND 34, 25 1987Br05 1987Br.B 1987Co08 NUPAB 465, AnRpt Julich NUPAB 465, 221 9 240 1987De04 1987De33 1987De.A ZPAAD 326, JPHGB 13, AnRpt Leuven 155 1283 47 1987Eb02 NUPAB 464, 9 1987El02 JPHGB 13, 93 1987El09 PRVCA 36, 1529 1987Fa.A 1987Fo20 1987Ga.A 1987Ge01 P-Rosseau NUPAB 475, P-Yurmala JPHGB 13, 675 301 86 69 1987Gi02 1987Gi05 ZPAAD PYLBB 326, 192, 107 39 1987Go25 PZETA 45, 205 1987Gr18 ZPAAD 327, 383 1987Gr.A 1987Ha.A 1987He10 P-Rosseau AnRpt Tohoku EULEE 3, 30 43 895 1987He21 1987He28 1987Ho01 NUPAB NUPAB PRVCA 474, 474, 35, 484 77 315 1987Ho06 1987Ju02 1987Ju04 ARISE ARISE ARISE 38, 38, 38, 195 193 839 1987Ka29 NUPAB 470, 141 1987Ke09 1987Ki.A CJPHA P-Rosseau 65, 1111 517 1987Ko34 NUPAB 472, 419 1987Li09 PYLBB 191, 245 1987Li.A P-Rosseau 521 629 M. Bogdanović, R. Brissot, G. Barreau, K. Schreckenbach, S. Kerr, H.G. Börner, I.A. Kondurov, Yu. E. Loginov, V.V. Martynov, P.A. Sushkov, H. Seyfarth, T. von Egidy, P. Hungerford, H.H. Schmidt, H.J. Scheerer, A. Chalupka, W. Kane, G. Alaga W. Borchers, R. Neugart, E.W. Otten, H.T. Duong, G. Ulm, K. Wendt, ISOLDE, and 89Ot.1 A. Bruce, D. Hicks, D.D. Wagner B. Brinkmoeller, H.P. Morsch, R. Siebert, P. Decowski, M. Rogge, P. Turek G.G. Colvin, H.G. Börner, P. Geltenbort, F. Hoyler, S.A. Kerr, K. Schreckenbach, J.A. Cizewski, and PrvCom AHW December 1988 J. Deslauriers, S.C. Gujrathi, S.K. Mark C.T.A.M. De Laat, P. Polak, A. Taal, J. Konijn, W. Lourens, A.H. Wapstra P. Dendooven, M. Huyse, G. Reusen, J. Wouters, P. Van Duppen, I. Ahmad, R. Holzmann, R.V.F. Janssens J. Eberz, U. Dinger, G. Huber, H. Lochmann, R. Menges, R. Neugart, R. Kirchner, O. Klepper, T. Kuhl, D. Marx, G. Ulm, K. Wendt, ISOLDE A.M.Y. El-Lawindy, J.D. Burrows, P.A. Butler, J.R. Cresswell, V. Holliday, G.D. Jones, R. Tanner, R. Wadsworth, D.L. Watson, K.A. Connell, J. Simpsom, C. Lauterbach, J.R. Mines Y.A. Ellis-Akovali, K.S. Toth, H.K. Carter, C.R. Bingham, I.C. Girit, M.O. Kortelahti T. Faestermann, A. Gillitzer, K. Hartel, W. Henning, P. Kienle B. Fogelberg, A.M. Bruce, D.D. Warner N. Ganbaatar, G.V. Veselov, K.A. Mezilev, V.G. Kalinnikov W. Gelletly, J.R. Larysz, H.G. Börner, R.F. Casten, W.F. Davidson, W. Mampe, K. Schreckenbach, D.D. Warner A. Gillitzer, T. Faestermann, K. Hartel, P. Kienle, E. Nolte A. Gillibert, W. Mittig, L. Bianchi, A. Cunsolo, B. Fernandez, A. Foti, J. Gastebois, C. Gregoire, Y. Schutz, C. Stephan M.G. Gornov, Y.B. Gurov, V.P. Koptev, P.V. Morokhov, K.O. Oganesyan, B.P. Osipenko, V.A. Pechkurov, V.I. Savel’ev, F.M. Sergeev, A.A. Khomutov, B.A. Chernyshev, R.R. Shafigullin, A.V. Shishkov M. Graefenstedt, U. Keyser, F. Münnich, F. Schreiber, H.R. Faust, H. Weikard M. Graefenstedt, U. Keyser, F. Münnich, F. Schreiber H. Hama, et al F.P. Heßberger, S. Hofmann, G. Münzenberg, A.B. Quint, K. Sümmerer, P. Armbruster K. Heiguchi, S. Mitarai, B.J. Min, T. Kuroyanagi R.G. Helmer, M.A. Lee, C.W. Reich, I. Ahmad M.A.C. Hotchkis, J.E. Reiff, D.J. Vieira, F. Blönnigen, T.F. Lang, D.M. Moltz, X. Xu, J. Cerny D.D. Hoppes, B.M. Coursey, F.J. Schima, D. Yang S.M. Judge, A.M. Privitera, M.J. Woods S.M. Judge, P. Christmas, P. Cross, D. Smith, W.D. Hamilton, and PrvCom AHW February 1989 N. Kaffrell, P. Hill, J. Rogowski, H. Tetzlaff, N. Trautmann, E. Jacobs, P. De Gelder, D. De Frenne, K. Heyde, S. Borjesson, G. Skarnemark, J. Alstad, N. Blasi, M.N. Harakeh, W.A. Sterrenburg, K. Wolfsberg T.J. Kennett, W.V. Prestwich, J.S. Tsai P. Kilcher, J. Sauvage, C. Bourgeois, F. Le Blanc, J. Oms, B. Roussière, J. Munsch, J. Obert, A. Caruette, A. Ferro, G. Boissier, J. Fournet-Fayas, M. Ducourtieux, G. Landois, R. Sellem, D. Sznadjderman, ISOCELE, A. Wojtasiewicz, M.C. Abreu, A. Ben Braham, K. Fransson, M.G. Porquet V.T. Koslowsky, J.C. Hardy, E. Hagberg, R.E. Azuma, G.C. Ball, E.T.H. Clifford, W.G. Davies, H. Schmeing, U.J. Schrewe, K.S. Sharma C.F. Liang, P. Paris, P. Kleinheinz, B. Rubio, M. Piiparinen, D. Schardt, A. Plochocki, R. Barden C.F. Liang, P. Paris, Ch. Briançon 630 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1987Me08 ZPAAD 327, 171 1987Mo06 PRVCA 35, 1275 1987Mu15 ZPAAD 328, 49 35, 126 1617 1987Ne.A 1987Pe06 P-Rosseau PRVCA 1987Po04 ZPAAD 327, 17 1987Ra06 1987Ra12 1987Ru05 PRVCA NIMBE ZPAAD 36, 26, 328, 303 72 373 1987Sc.A P-Rosseau 1987Se04 1987Se05 NUPAB PRLTA 464, 58, 381 1930 1987Se07 NUPAB 467, 93 1987Se.A 1987Sp02 1987Sp09 1987Sp.A 1987St04 P-Rosseau PRVAA 35, NUPAB 474, P-Leuven ZPAAD 326, 324 679 359 S559 139 1987St11 PRVCA 2033 1987St.A P-Rosseau 1987To02 1987To05 1987To09 1987Va09 1987Ve.A 1987Vi01 1987Wh01 PRVCA 35, PRVCA 35, PRVCA 35, PRVCA 35, P-Yurmala NUPAB 463, PRVCA 35, 1987Wi15 NUPAB 473, 129 1987Zi02 NUPAB 466, 280 477 35, 489 310 620 2330 1861 146 605 81 F. Meissner, E. Runte, V. Freystein, T. Hild, W.-D. Schmidt-ott, H. Salewski, R. Michaelsen D.M. Moltz, A.C. Betker, J.P. Sullivan, R.H. Burch, C.A. Gagliardi, R.E. Tribble, K.S. Toth, F.T. Avignone III G. Münzenberg, P. Armbruster, G. Berthes, H. Folger, F.P. Heßberger, S. Hofmann, J. Keller, K. Poppensieker, A.B. Quint, W. Reisdorf, K.H. Schmidt, H.-J. Schött, K. Sümmerer, I. Zychor, M.E. Leino, R. Hingmann, U. Gollerthan, E. Hanelt R. Neugart, E. Arnold, W. Borchers, W. Neu, G. Ulm, K. Wendt K.I. Pearce, N.M. Clarke, R.J. Griffiths, P.J. Simmonds, A.C. Dodd, D. Barker, J.B.A. England, M.C. Mannion, C.A. Ogilvie F. Pougheon, J.C. Jacmart, E. Quiniou, R. Anne, D. Bazin, V. Borrel, J. Galin, D. Guerreau, D. Guillemaud-Mueller, A.C. Mueller, E. Roeckl, M.G. Saint-Laurent, C. Détraz M.S. Rapaport, C.F. Liang, P. Paris, and PrvCom GAu July 1988 H.L. Ravn E. Runte, F. Meissner, V. Freystein, T. Hild, H. Salewski, W.-D. SchmidtOtt, R. Michaelsen D. Schardt, R. Barden, R. Kirchner, O. Klepper, A. Plochocki, E. Roeckl, P. Kleinheinz, M. Piiparinen, B. Rubio, K. Zuber, C.F. Liang, P. Paris, A. Huck, G. Walter, G. Marguier, H. Gabelmann, J. Blomqvist P.B. Semmes, R.A. Braga, R.W. Fink, J.L. Wood, J.D. Cole K.K. Seth, M. Artuso, D. Barlow, S. Iversen, M. Kaletka, H. Nann, B. Parker, R. Soundranayagam T. Sekine, J. Cerny, R. Kirchner, O. Klepper, V.T. Koslowsky, A. Plochocki, E. Roeckl, D. Schardt, B. Sherrill, B.A. Brown K.K. Seth P.T. Springer, C.L. Bennett, P.A. Baisden L. Spanier, K. Aleklett, B. Ekström, B. Fogelberg A.M.J. Spits, S.J. Robinson E. Stiliaris, H.G. Bohlen, X.S. Chen, B. Gebauer, A. Miczaika, W. von Oertzen, W. Weller, T. Wilpert G.S.F. Stephans, H.T. Fortune, L.C. Bland, M. Carchidi, R. Gilman, G.P. Gilfoyle, J.W. Sweet J. Styczen, P. Kleinheinz, W. Starzecki, B. Rubio, G. de Angelis, H.J. Hahn, C.F. Liang, P. Paris, R. Reinhardt, P. von Brentano, J. Blomqvist K.S. Toth, D.C. Sousa, J.M. Nitschke, P.A. Wilmarth K.S. Toth, D.C. Sousa, J.M. Nitschke, P.A. Wilmarth K.S. Toth, D.M. Moltz, F. Blönnigen, F.T. Avignone,III P. Van Duppen, E. Coenen, K. Deneffe, M. Huyse, J.L. Wood G.V. Veselov, K.A. Mezilev, Yu. N. Novikov, A.V. Lopov, V.A. Sergienko K. Vierinen D.H. White, H.G. Börner, R.W. Hoff, K. Schreckenbach, W.F. Davidson, T. von Egidy, D.D. Warner, P. Jeuch, G. Barreau, W.R. Kane, M.L. Stelts, R.E. Chrien, R.F. Casten, R.G. Lanier, R.W. Lougheed, R.T. Kouzes, R.A. Naumann, R. Dewberry Ch. Winter, B. Krusche, K.P. Lieb, T. Weber, G. Hlawatsch, T. von Egidy, F. Hoyler F. Zijderhand, R.C. Makkus, C. van der Leun 1988 1988Ah02 NUPAB 483, 244 1988Aj01 1988Ax01 NUPAB PYLBB 490, 210, 1 249 1988Ay01 PYLBB 201, 211 S.A. Ahmad, W. Klempt, R. Neugart, E.W. Otten, P.-G. Reinhard, G. Ulm, K. Wendt, ISOLDE F. Ajzenberg-Selove H. Axelsson, M. Cronqvist, A. De Rújula, P.G. Hansen, L. Johannsen, B. Jonson, R.A. Naumann, G. Nyman, J.W. Petersen, H.L. Ravn, K. Riisager, J.A. Scircle, ISOLDE J. Äystö, P. Taskinen, M. Yoshii, J. Honkanen, P. Jauho, H. Penttilä, C.N. Davids G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1988Ay02 NUPAB 480, 104 1988Ba10 ZPAAD 329, 319 1988Ba42 ZPAAD 330, 341 1988Be.A P-StMalo 1988Bo06 NUPAB 477, 89 1988Bo28 ZPAAD 331, 21 1988Bo39 NUPAB 490, 287 1988Bu08 1988Ca21 NUPAB NUPAB 483, 489, 221 347 1988Cl04 JPHGB 14, 1399 1988Co18 1988CoTa 1988De03 1988Du09 JPHGB CODBA NUPAB PYLBB 14, 63, 476, 206, 1411 1 316 195 1988Fi04 NUPAB 484, 117 1988Fo05 1988Gi04 1988Gr30 PYLBB PRVCA RAACA 209, 37, 43, 173 2600 223 1988Ho.A AnRpt Daresb 49 1988Ka14 ZPAAD 330, 55 1988Ka32 JUPSA 57, 2873 1988Ke09 1988Ku14 CJPHA NUPAB 66, 484, 947 264 1988Li11 NUPAB 481, 1988Ma.A P-BadHonnef 477 391 1988Me.A Th.-Mainz 1988Mi13 PRVCA 1988Mo18 PRVCA 38, 38, 895 737 330, 63 PRVCA 37, PRVCA 37, Th.-Canberra 2694 860 1988Mu08 ZPAAD 1988Ni02 1988No02 1988Or.A A1 631 J. Äystö, C.N. Davids, J. Hattula, J. Honkanen, P. Jauho, R. Julin, S. Juutinen, J. Kumpalainen, T. Loenroth, A. Pakkanen, A. Passoja, H. Penttilä, P. Taskinen, E. Verho, A. Virtanen, M. Yoshi R. Barden, R. Kirchner, O. Klepper, A. Plochocki, G.-E. Rathke, E. Roeckl, K. Rykaczewski, D. Schardt, J. Żylicz D. Barnéoud, J. Blachot, J. Genevey, A. Gizon, R. Béraud, R. Duffait, A. Emsallem, M. Meyer, N. Redon, D. Rolando-Eugio R. Béraud, R. Duffait, A. Emsallem, M. Meyer, N. Redon, D. RolandoEugio, D. Barnéoud, J. Blachot, J. Genevey, A. Gizon U. Bosch, W.-D. Schmidt-Ott, E. Runte, P. Tidemand-Petersson, P. Koschel, F. Meissner, R. Kirchner, O. Klepper, E. Roeckl, K. Rykaczewski, D. Schardt V.R. Bom, R.W. Hollander, E. Coenen, K. Deneffe, P. Van Duppen, M. Huyse M.J.G. Borge, H. Cronberg, M. Cronqvist, H. Gabelmann, P.G. Hansen, L. Johannsen, B. Jonson, S. Mattsson, G. Nyman, A. Richter, K. Riisager, O. Tengblad, M. Tomaselli D.G. Burke, G. Løvhøiden, T.F. Thorsteinsen W.N. Catford, L.K. Fifield, T.R. Ophel, N.A. Orr, D.C. Weisser, C.L. Woods N.M. Clarke, P.R. Hayes, M.B. Becha, K.I. Pearce, R.J. Griffiths, J.B.A. England, L. Zybert, C.N. Pinder, G.M. Field, R.S. Mackintosh G.G. Colvin, S.J. Robinson, F. Hoyler E.R. Cohen, B.N. Taylor H.P.L. De Esch, C. van der Leun J.P. Dufour, R. Del Moral, F. Hubert, D. Jean, M.S. Pravikoff, A. Fleury, A.C. Mueller, K.-H. Schmidt, K. Sümmerer, E. Hanelt, J. Frehaut, M. Beau, G. Giraudet L.K. Fifield, R. Chapman, J.L. Durell, J.N. Mo, R.J. Smith, P.J. Woods, B.R. Fulton, R.A. Cunningham, P.V. Drumm B. Fogelberg, Ye Zongyuan, L. Spanier M. Girod, Ph. Dessagne, M. Bernas, M. Langevin, F. Pougheon, P. Roussel K.E. Gregorich, R.A. Henderson, D.M. Lee, M.J. Nurmia, R.M. Chasteler, H.L. Hall, D.A. Bennett, C.M. Gannett, R.B. Chadwick, J.D. Leyba, D.C. Hoffman, G. Herrmann M.A.C. Hotchkis, R. Chapman, J.H. McNeill, R.A. Cunningham, R.D. Page, P.J. Woods, G.D. Jones T. Karlewski, N. Hildebrand, M. Brügger, N. Kaffrell, N. Trautmann, G. Herrmann H. Kawakami, S. Kato, F. Naito, K. Nisimura, T. Ohshima, S. Shibata, T. Suzuki, K. Ukai, N. Morikawa, N. Nogawa, T. Nagafuchi, H. Taketani, M. Iwahashi, K. Hisatake, Y. Fukushima, T. Matsuda, T. Taniguchi T.J. Kennett, W.V. Prestwich, J.S. Tsai T. Kuroyanagi, S. Mitarai, B.J. Min, H. Tomura, Y. Haruta, K. Heiguchi, S. Suematsu, Y. Onizuka W.J. Lin, O.K. Manuel, G.L. Cumming, D. Krstic, R.I. Thorpe H. Mach, E.K. Warburton, R.L. Gill, R.F. Casten, A. Wolf, Z. Berant, J.A. Winger, K. Sistemich, G. Molnár, S.M. Yates R. Menges, et al, and 89Ot.1 L.W. Mitchell, P.H. Fisher M.F. Mohar, E. Adamides, W. Benenson, C. Bloch, B.A. Brown, J. Clayton, E. Kashy, M. Lowe, J.A. Nolen,Jr., W.E. Ormand, J. van der Plicht, B. Sherrill, J. Stevenson, J.S. Winfield A.C. Mueller, D. Bazin, W.D. Schmidt-Ott, R. Anne, D. Guerreau, D. Guillemaud-Mueller, M.G. Saint-Laurent, V. Borrel, J.C. Jacmart, F. Pougheon, A. Richard J.M. Nitschke, P.A. Wilmarth, J. Gilat, K.S. Toth, F.T. Avignone III E.B. Norman, K.T. Lesko, A.E. Champagne N.A. Orr 632 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1988Pe13 1988Qu.A PRVCA 38, AnRpt GSI 931 16 1988Sa06 1988Sa18 ZPAAD PRVCA 329, 37, 169 2371 1988Vi02 PRVCA 38, 1509 1988Wi05 1988Wo02 1988Wo07 1988Wo09 ZPAAD NUPAB NUPAB ZPAAD 329, 476, 484, 331, 503 392 145 229 H. Penttilä, P. Taskinen, P. Jauho, V. Koponen, C.N. Davids, J. Äystö A.B. Quint, W. Morawek, K.-H. Schmidt, P. Armbruster, F.P. Heßberger, S. Hofmann, G. Münzenberg, W. Reisdorf, H. Stelzer, H.-G. Clerc, C.C. Sahm H. Salewski, W.-D. Schmidt-Ott J.-L. Salicio, S. Drissi, M. Gasser, J. Kern, H.G. Börner, G.G. Colvin, K. Schreckenbach, R.W. Hoff, R.W. Lougheed K.S. Vierinen, A.A. Shihab-Eldin, J.M. Nitschke, P.A. Wilmarth, R.M. Chasteler, R.B. Firestone, K.S. Toth P.A. Wilmarth, J.M. Nitschke, K. Vierinen, K.S. Toth, M. Kortelahti C.L. Woods, W.N. Catford, L.K. Fifield, N.A. Orr, R.J. Sadleir C.L. Woods, W.N. Catford, L.K. Fifield, N.A. Orr J.M. Wouters, R.H. Kraus,Jr., D.J. Vieira, G.W. Butler, K.E.G. Lobner 1989 1989Al33 IANFA 53, 2089 1989An02 NUPAB 491, 290 1989An13 YAFIA 50, 619 1989An.A P-Dubna 1989Ba22 PYLBB 223, 273 1989Ba28 1989Ba42 1989Ba50 PRVCA NUPAB PYLBB 40, 500, 228, 940 1 458 1989Ba.B AnRpt CRN 1989Bo.A 1989Bu09 PrvCom ZPAAD GAu 333, Dec 131 1989Ca25 1989Ch01 NUPAB PRVCA 503, 39, 263 248 1989Cl02 NUPAB 493, 293 1989Dr03 1989Fi01 NUPAB PRVCA 496, 39, 530 219 1989Gr03 1989Gr23 NUPAB ZPAAD 491, 334, 373 239 1989Gu03 ZPAAD 332, 189 1989Ha27 NUPAB 500, 90 1989Ha.A 1989Ha.B PENUC PENUC III, III, 99 157 508 76 G.D. Alkhazov, B.N. Belyayev, V.D. Domkin, Yu. G. Korobulin, V.V. Lukashevich, V.S. Mukhin E. Andersen, M.J.G. Borge, D.G. Burke, H. Gietz, P. Hill, N. Kaffrell, W. Kurcewicz, G. Løvhøiden, S. Mattsson, R.A. Naumann, K. Nybø, G. Nyman, T.F. Thorsteinsen, ISOLDE A.N. Andreyev, D.D. Bogdanov, A.V. Yerimin, A.P. Kabachenko, O.A. Orlova, G.M. Ter-Akopian, V.I. Chepigin A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin, A.P. Kabachenko, O.A. Orlova, S. Sharo, G.M. Ter-Akopian, A.V. Yeremin, and 89An13 A.S. Barabash, V.V. Kuzminov, V.M. Lobashev, V.M. Novikov, B.M. Ovchinnikov, A.A. Pomansky S.C. Baker, M.J. Brown, P.H. Barker E.L. Bakkum, C. van der Leun P. Baumann, A. Huck, G. Klotz, A. Knipper, G. Walter, G. Marguier, H.L. Ravn, C. Richard-Serre, A. Poves, J. Retamosa P. Baumann, A. Huck, G. Klotz, A. Knipper, G. Marguier, H. Ravn, C. Richard-Serre, G. Walter H.G. Bohlen D.G. Burke, H. Folger, H. Gabelmann, E. Hagebø, P. Hill, P. Hoff, O. Jonsson, N. Kaffrell, W. Kurcewicz, G. Løvhøiden, K. Nybø, G. Nyman, H. Ravn, K. Riisager, J. Rogowski, K. Steffensen, T.F. Thorsteinsen, ISOLDE W.N. Catford, L.K. Fifield, N.A. Orr, C.L. Woods A.E. Champagne, R.T. Kouzes, A.B. McDonald, M.M. Lowry, D.R. Benton, K.P. Coulter, Z.Q. Mao E.T.H. Clifford, E. Hagberg, J.C. Hardy, H. Schmeing, R.E. Azuma, H.C. Evans, V.T. Koslowsky, U.J. Schrewe, K.S. Sharma, I.S. Towner P.V. Drumm, L.K. Fifield, R.A. Bark, M.A.C. Hotchkis, C.L. Woods R.B. Firestone, J.M. Nitschke, P.A. Wilmarth, K. Vierinen, J. Gilat, K.S. Toth, Y.A. Akovali M. Graefenstedt, U. Keyser, F. Münnich, F. Schreiber, ISOLDE M. Graefenstedt, P. Jürgens, U. Keyser, F. Münnich, F. Schreiber, K. Balog, T. Winkelmann, H.R. Faust D. Guillemaud-Mueller, Y.E. Penionzhkevich, R. Anne, A.G. Artukh, D. Bazin, V. Borrel, C. Détraz, D. Guerreau, B.A. Gvozdev, J.C. Jacmart, D.X. Jiang, A.M. Kalinin, V.V. Kamanin, V.B. Kutner, M. Lewitowicz, S.M. Lukyanov, A.C. Mueller, N. Hoai Chau, F. Pougheon, A. Richard, M.G. Saint-Laurent, W.D. Schmidt-Ott (see also 93Po.A) Y. Hatsukawa, T. Ohtsuki, K. Sueki, H. Nakahara, I. Kohno, M. Magara, N. Shinohara, H.L. Hall, R.A. Henderson, C.M. Gannett, J.A. Leyba, R.B. Chadwick, K.E. Gregorich, D. Lee, M.J. Nurmia, D.C. Hoffman J.C. Hardy, E. Hagberg P.G. Hansen, B. Jonson G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1989He03 NIMAE 274, 522 1989He13 ZPAAD 333, 111 1989Hi04 NUPAB 492, 237 1989Ho08 1989Ho12 ZPAAD ZPAAD 332, 333, 407 107 1989Ho13 NUPAB 496, 462 1989Ho15 1989Hu03 1989Je07 1989Ka04 NUPAB PRVCA NUPAB PRVCA 500, 39, 503, 39, 111 997 77 818 1989Ki11 1989Ko02 NUPAB PRVCA 496, 39, 429 636 1989Ko07 1989Ko22 ZPAAD ZPAAD 332, 333, 229 339 1989Kr12 NUPAB 503, 113 1989Le16 NUPAB 496, 477 1989Li30 1989Lo07 1989Ma05 1989Me02 GCACA NUPAB JPGPE ZPAAD 53, 494, 15, 332, 1597 157 173 153 1989Mi03 PRVCA 39, 992 1989Mi16 NUPAB 501, 437 1989Mi17 NUPAB 501, 557 1989Mi.A P-Dubna 1989Mu09 ZPAAD 333, 66 163 1989Mu16 NUPAB 1989Or03 NUPAB 502, 491, 571 443 1989Or04 1989Ot.A 1989Po09 NUPAB THISc NUPAB 491, 8, 499, 457 517 495 1989Po10 NUPAB 500, 287 1989Pr.A PENUC II, 205 633 F.P. Heßberger, S. Hofmann, G. Münzenberg, K.-H. Schmidt, P. Armbruster, R. Hingmann F.P. Heßberger, H. Gäggeler, P. Armbruster, W. Brüchle, H. Folger, S. Hofmann, D. Jost, J.V. Kratz, M.E. Leino, G. Münzenberg, V. Ninov, M. Schädel, U. Scherer, K. Sümmerer, A. Türler, D. Ackermann T. Hild, W.-D. Schmidt-Ott, V. Freystein, F. Meissner, E. Runte, H. Salewski, R. Michaelsen P. Hoff, B. Ekström, B. Fogelberg PrvCom of L. Spanier et al to ref. S. Hofmann, P. Armbruster, G. Berthes, T. Faestermann, A. Gillitzer, F.P. Heßberger, W. Kurcewicz, G. Münzenberg, K. Poppensieker, H.J. Schött, I. Zychor J. Honkanen, V. Koponen, P. Taskinen, J. Aysto, K. Eskola, S. Messelt, K. Ogawa C. Hofmeyr H. Huck, A. Jech, G. Marti, M.L. Perez, J.J. Rossi, H.M. Sofia C. Jeanperrin, L.H. Rosier, B. Ramstein, E.I. Obiajunwa S. Kato, S. Kubono, M.H. Tanaka, M. Yasue, T. Nomura, Y. Fuchi, S. Ohkawa, T. Miyachi, K. Iwata, T. Suehiro, Y. Yoshida S.W. Kikstra, C. van der Leun, S. Raman, E.T. Jurney, I.S. Towner M.O. Kortelahti, K.S. Toth, K.S. Vierinen, J.M. Nitschke, P.A. Wilmarth, R.B. Firestone, R.M. Chasteler, A.A. Shihab-Eldin M.O. Kortelahti, H.K. Carter, R.A. Braga, R.W. Fink, B.D. Kern V. Koponen, J. Äystö, J. Honkanen, P. Jauho, H. Penttilä, J. Suhonen, P. Taskinen, K. Rykaczewski, J. Żylicz, C.N. Davids A. Krasznahorkay, Zs. Dombrádi, J. Timár, Z. Gácsi, T. Kibédi, A. Passoja, R. Julin, J. Kumpulainen, S. Brant, V. Paar M. Lewitowicz, Yu. E. Penionzhkevich, A.G. Artukh, A.M. Kalinin, V.V. Kamanin, S.M. Lukyanov, Nguyen Hoai Chau, A.C. Mueller, D. Guillemaud-Mueller, R. Anne, D. Bazin, C. Détraz, D. Guerreau, M.G. Saint-Laurent, V. Borrel, J.C. Jacmart, F. Pougheon, A. Richard, W.D. Schmidt-Ott M. Lindner, D.A. Leich, G.P. Russ, J.M. Bazan, R.J. Borg G. Løvhøiden, T.F. Thorsteinsen, E. Andersen, M.F. Kiziltan, D.G. Burke A.M. Mandal, S.K. Saha, S.M. Sahakundu, A.P. Patro F. Meissner, W.-D. Schmidt-Ott, V. Freystein, T. Hild, E. Runte, H. Salewski, R. Michaelsen Ch. Miehé, Ph. Dessagne, P. Baumann, A. Huck, G. Klotz, A. Knipper, G. Walter, G. Marguier S. Michaelsen, Ch. Winter, K.P. Lieb, B. Krusche, S. Robinson, T. von Egidy H. Miyatake, T. Nomura, S. Kubono, J. Tanaka, M. Oyaizu, H. Okawa, N. Ikeda, K. Sueki, H. Kudo, K. Morita, T. Shinozuka V.L. Mikheev, et al G. Münzenberg, P. Armbruster, S. Hofmann, F.P. Heßberger, H. Folger, J.G. Keller, V. Ninov, K. Poppensieker, A.B. Quint, W. Reisdorf, K.-H. Schmidt, J.R.H. Schneider, H.J. Schött, K. Sümmerer, I. Zychor, M.E. Leino, D. Ackermann, U. Gollerthan, E. Hanelt, W. Morawek, D. Vermeulen, Y. Fujita, T. Schwab G. Münzenberg N.A. Orr, W.N. Catford, L.K. Fifield, M.A.C. Hotchkis, T.R. Ophel, D.C. Weisser, C.L. Woods N.A. Orr, L.K. Fifield, W.N. Catford, C.L. Woods E.W. Otten M.G. Porquet, C. Bourgeois, P. Kilcher, B. Roussière, J. Sauvage, H. Dautet, J.K.P. Lee, ISOCELE F. Pougheon, V. Borrel, J.C. Jacmart, R. Anne, C. Détraz, D. GuillemaudMueller, A.C. Mueller, D. Bazin, R. Del Moral, J.P. Dufour, F. Hubert, M.S. Pravikoff, G. Audi, E. Roeckl, B.A. Brown P.B. Price, S.W. Barwick 634 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1989Re.A 1989Ri03 P-Miami NUPAB 499, 221 1989Ry02 ZPAAD 332, 275 1989Sa01 1989Sa11 JPGPE NUPAB 15, 494, 73 36 1989Sc24 1989Sc31 NUPAB NUPAB 501, 504, 86 1 1989Sc.A 1989Sh10 NDSAA NIMAE 57, 275, 515 123 1989Si04 PRVDA 1989Sm06 SAPHD 1989St05 PRVCA 39, 12, 39, 1825 74 1503 1989St06 1989Su.A PRVCA BAPSA 39, 34, 1963 1819 1989Ta11 1989To01 1989Vi04 1989Wa10 1989Wi05 ZPAAD PRVCA NUPAB PRVCA NUPAB 333, 39, 499, 39, 491, 29 1150 1 1647 395 1989Yu01 1989Zh04 PRVCA PRVCA 39, 39, 256 1985 1989Zl.A PrvCom GAu May P.L. Reeder, et al R. Richter, I. Förster, A. Gelberg, A.M.I. Haque, P. von Brentano, R.F. Casten, H.G. Börner, G.G. Colvin, K. Schreckenbach, G. Barreau, S.A. Kerr, H.H. Schmidt, P. Hungerford, H.J. Scheerer, T. von Egidy, R. Rascher K. Rykaczewski, A. Plochocki, I.S. Grant, H. Gabelmann, R. Barden, D. Schardt, J. Żylicz, G. Nyman, ISOLDE S.K. Saha, S.M. Sahakundu S.L. Sakharov, I.A. Kondurov, Yu. E. Loginov, V.V. Martynov, A.A. Radionov, P.A. Sushkov, Yu. L. Khazov, A.I. Egorov, V.K. Isupov, H.G. Börner, F. Hoyler, S. Kerr, K. Schreckenbach, G. Hlawatsch, T. von Egidy, H. Lindner H. Schölermann, R. Böttger H.H. Schmidt, P. Hungerford, T. von Egidy, H.J. Scheerer, H.G. Börner, S.A. Kerr, K. Schreckenbach, F. Hoyler, G.G. Colvin, A.M. Bruce, R.F. Casten, D.D. Warner, I.L. Kugava, V.A. Bondarenko, N.D. Kramer, P.T. Prokofjef, A. Chalupka M.R. Schmorak K.S. Sharma, H. Schmeing, H.C. Evans, E. Hagberg, J.C. Hardy, V.T. Koslowsky J.J. Simpson, A. Hime J.J.A. Smit, Z.H.J. Pretorius, F.B. Waanders, J.P.L. Reinecke, J. Keilonen S.T. Staggs, R.G.H. Robertson, D.L. Wark, P.P. Nguyen, J.F. Wilkerson, T.J. Bowles C.A. Stone, S.H. Faller, W.B. Walters B. Sur, E.B. Norman, K.T. Lesko, E. Browne, R.M. Larimer, H.L. Hall, J.D. Leyba, D.C. Hoffman J.L. Tain, B. Rubio, P. Kleinheinz, D. Schardt, R. Barden, J. Blomqvist K.S. Toth, D.M. Moltz, J.D. Robertson K.S. Vierinen, J.M. Nitschke, P.A. Wilmarth, R.B. Firestone, J. Gilat S. Wang, D. Snowden-Ifft, P.B. Price, K.J. Moody, E.K. Hulet Ch. Winter, B. Krusche, K.P. Lieb, S. Michaelsen, G. Hlawatsch, H. Linder, T. von Egidy, F. Hoyler, R.F. Casten S. Yuan, T. Zhang, S. Xu, W. Li, L. Zhang, M. Liu, X. Ou, W. Li Z. Zhao, M. Gai, B.J. Lund, S.L. Rugari, D. Mikolas, B.A. Brown, J.A. Nolen,Jr., M. Samuel I. Žlimen 1990 1990Aj01 1990Ak04 NUPAB PRVCA 506, 42, 1 1130 1990Am04 PZETA 51, 607 1990Am05 YAFIA 52, 1231 1990An19 ZPAAD 337, 229 1990An22 ZPAAD 337, 231 1990Au.A 1990Ba02 1990Be.A 1990Be.B PrvCom GAu PRVCA 41, PrvCom AHW P-Leningrad Feb 246 Jun 132 1990Bo16 PYLBB 179 241, F. Ajzenberg-Selove, and PrvCom AHW Y.A. Akovali, K.S. Toth, C.R. Bingham, M.B. Kassim, M. Zhang, H.K. Carter, W.D. Hamilton, J. Kormicki A.I. Amelin, M.G. Gornow, Yu. B. Gurov, A.I. Ilin, V.P. Koplev, P.V. Morokhov, K.O. Oganesyan, V.A. Pechkurov, V.I. Saveliev, E.M. Sergeyev, B.A. Chern’yshev, R.R. Shafigulin, A.V. Shishkov A.I. Amelin, M.G. Gornov, Y.B. Gurov, A.L. Il’in, P.V. Morokhov, V.A. Pechkurov, V.I. Savelev, F.M. Sergeev, S.A. Smirnov, B.A. Chernyshev, R.R. Shafigullin, A.V. Shishkov A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin, A.P. Kabachenko, S. Sharo, G.M. Ter-Akopian, A.V. Yeremin A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin, A.P. Kabachenko, S. Sharo, G.M. Ter-Akopian, A.V. Yeremin, O.N. Malyshev G. Audi, and PrvCom to 99Sa. A P.H. Barker, G.D. Leonard C.E. Bemis E.A. Belomytseva, G.V. Veselov, K.A. Mezilev, Yu. N. Novikov, A.G. Polyakov, A.V. Popov, Yu. Ya. Sergeev, V.A. Sergienko, V.I. Tichonov R. Bonetti, E. Fioretto, C. Migliorino, A. Pasinetti, F. Barranco, E. Vigezzi, R.A. Broglia G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1990Bo39 1990Bo52 YAFIA IANFA 52, 54, 358 1787 1990Bu17 1990Bu28 PRVCA YAFIA 42, 52, 499 305 1990Ch34 PRVCA 42, 1171 1990Ch37 PRVCA 42, 1796 1990De43 NUPAB 519, 529 1990Dy04 PYLBB 245, 343 1990En02 1990Endt 1990Fo07 1990Ge05 1990Ge12 1990Gr10 NUPAB NUPAB ZPAAD PRVCA ZDACE ZPAAD 510, 521, 337, 41, 17, 336, 209 1 251 2878 119 247 1990Ha02 PRVCA 41, 618 1990He11 1990Ho02 PRVCA PRVCA 41, 41, 2325 484 1990Ho03 PRVCA 41, 631 1990Ho10 NUPAB 512, 189 1990Is02 1990Is03 1990Is07 1990Is09 1990Ka01 PRVCA ZPAAD PRVCA CJPHA PRVCA 41, 335, 42, 68, 41, 1272 173 207 1237 1276 1990Ka10 PRVCA 41, 2004 1990Ka19 PRVCA 42, 563 1990Ka21 NUPAB 514, 173 1990Ka27 PRVCA 42, 1918 1990Ki07 NUPAB 512, 425 1990Ko25 PRVCA 42, 1267 1990Le03 ZPAAD 335, 117 1990Li40 NIMAE 297, 217 635 D.D. Bogdanov, V.P. Bugrov, S.G. Kadmenskiı̃ S.T. Boneva, E.V. Vasileva, V.D. Kulik, L.K. Khem, Yu. P. Popov, A.M. Sukhovoi, V.A. Khitrov,Yu. V. Kholnov D.G. Burke, P.E. Garrett, Tao Qu, R.A. Naumann E. Bukhner, I.N. Vishnevsky, F.A. Danevich, Yu. G. Zdesenko, H.V. Klapdor, B.N. Kropivyansky, V.N. Kuts, A. Piepke, V.I. Tretyak, G. Heusser, J. Schneider, H. Strecker R.M. Chasteler, J.M. Nitschke, R.B. Firestone, K.S. Vierinen, P.A. Wilmarth R.M. Chasteler, J.M. Nitschke, R.B. Firestone, K.S. Vierinen, P.A. Wilmarth C. Détraz, R. Anne, P. Bricault, D. Guillemaud-Mueller, M. Lewitowicz, A.C. Mueller, Yu Hu Zhang, V. Borrel, J.C. Jacmart, F. Pougheon, A. Richard, D. Bazin, J.P. Dufour, A. Fleury, F. Hubert, M.S. Pravikoff G.R. Dyck, M.H. Sidky, J.G. Hykawy, C.A. Lander, K.S. Sharma, R.C. Barber, H.E. Duckworth P.M. Endt, C. Alderliesten, F. Zijderhand, A.A. Wolters, A.G.M. van Hees P.M. Endt B. Fogelberg, Y. Zongyuan, B. Ekström, E. Lund, K. Aleklett, L. Sihver R.J. Gehrke, C. Casey, R.K. Murray Ch. Gerz, D. Wilsdorf, G. Werth M. Graefenstedt, P. Jürgens, U. Keyser, F. Münnich, F. Schreiber, K. Balog, T. Winkelmann, H.R. Faust, B. Pfeiffer H.L. Hall, K.E. Gregorich, R.A. Henderson, C.M. Gannett, R.B. Chadwick, J.D. Leyba, K.R. Czerwinski, B. Kadkhodayan, S.A. Kreek, D.M. Lee, M.J. Nurmia, D.C. Hoffman, C.E.A. Palmer, P.A. Baisden M. Hellström, B. Fogelberg, L. Spanier, H. Mach R.W. Hoff, S. Drissi, J. Kern, W. Strassmann, H.G. Börner, K. Schreckenbach, G. Barreau, W.D. Ruhter, L.G. Mann, D.H. White, J.H. Landrum, R.J. Dupzyk, R.F. Casten, W.R. Kane, D.D. Warner D.C. Hoffman, D.M. Lee, K.E. Gregorich, M.J. Nurmia, R.B. Chadwick, K.B. Chen, K.R. Czerwinski, C.M. Gannett, H.L. Hall, R.A. Henderson, B. Kadkhodayan, S.A. Kreek, J.D. Leyba F. Hoyler, J. Jolie, G.G. Colvin, H.G. Börner, K. Schreckenbach, P. Van Isacker, P. Fettweis, H. Göktürk, J.C. Dehaes, R.F. Casten, D.D. Warner, A.M. Bruce M.A. Islam, T.J. Kennett, W.V. Prestwich M.A. Islam, T.J. Kennett, W.V. Prestwich M.A. Islam, T.J. Kennett, W.V. Prestwich M.A. Islam, T.J. Kennett, W.V. Prestwich S. Kato, S. Kubono, M.H. Tanaka, M. Yasue, T. Nomura, Y. Fuchi, Y. Funatsu, S. Ohkawa, T. Miyachi, K. Iwata, T. Suehiro, Y. Yoshida, O. Nitoh S. Kato, S. Kubono, T. Nomura, Y. Fuchi, Y. Funatsu, S. Ohkawa, T. Miyachi, T. Suehiro, Y. Yoshida S. Kato, S. Kubono, M.H. Tanaka, T. Nomura, Y. Fuchi, Y. Funatsu, S. Ohkawa, T. Miyachi, T. Suehiro, Y. Yoshida A. Kaerts, P.H.M. van Assche, S.A. Kerr, F. Hoyler, H.G. Börner, R.F. Casten, D.D. Warner S. Kato, S. Kubono, M.H. Tanaka, M. Yasue, Y. Fuchi, Y. Funatsu, S. Ohkawa, T. Miyashi, T. Suehiro, Y. Yoshida S.W. Kikstra, C. van der Leun, P.M. Endt, J.G.L. Booten, A.G.M. van Hees, A.A. Wolters M.O. Kortelahti, B.D. Kern, R.A. Braga, R.W. Fink, I.C. Girit, R.L. Mlekodaj M. Lewitowicz, R. Anne, A.G. Artukh, D. Bazin, A.V. Belozyorov, P. Bricault, C. Détraz, D. Guillemaud-Mueller, J.C. Jacmart, E. Kashy, A. Latimier, S.M. Lukyanov, A.C. Mueller, Yu. E. Penionzhkevich, F. Pougheon, A. Richard, W.D. Schmidt-Ott, Y. Zhang H. Lindner, H. Trieb, T. von Egidy, H. Hiller, J. Klora, U. Mayerhofer, A. Walter, A.H. Wapstra 636 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1990Ma03 PRVCA 41, 226 1990Me08 1990Me13 1990Mi23 1990Mu06 PRVCA ZPAAD PRLTA NUPAB 41, 337, 25, 513, 2921 109 3092 1 1990Ne.A 1990Ne.B 1990Ni05 PrvCom P-Monterey ZPAAD 336, Gizon 1990Og01 PYLBB 235, 35 1990Pi05 1990Po13 NUPAB IANFA 510, 54, 301 852 1990Pr02 1990Ri01 CJPHA PYLBB 68, 235, 261 30 1990Ru02 1990Sa16 JPGPE PRVCA 16, 41, 255 2418 1990Sa32 ZPAAD 337, 161 1990Sa.A 1990Se17 Th.-Gottingen FZKAA 22, 183 1990Sh15 1990Sh.A 1990So08 1990St13 1990Ta07 1990Tu01 IMPAE 5, AnRpt LBL PRAMC 35, ZPAAD 336, ZPAAD 335, ZPAAD 337, 2821 114 329 369 477 361 1990Tu.A 1990Va18 Wallet Cards MPLAE 5, 1299 1990Wa22 NIMAE 1990We01 PRVCA 1990Wi12 PRVCA 292, 41, 42, 473 671 778 954 H. Mach, E.K. Warburton, R.L. Gill, R.F. Casten, J.A. Becker, B.A. Brown, J.A. Winger J.T. Meek, W.G. Millen, G.W. Stockton, R.T. Kouzes K.A. Mezilev, Yu. N. Novikov, A.V. Popov, Yu. Ya. Sergeev, V.I. Tikhonov H.S. Miley, F.T. Avignone III, R.L. Brodzinski, J.I. Collar, J.H. Reeves A.C. Mueller, D. Guillemaud-Mueller, J.C. Jacmart, E. Kashy, F. Pougheon, A. Richard, A. Staudt, H.V. Klapdor-Kleingrothaus, M. Lewitowicz, R. Anne, P. Bricault, C. Détraz, Yu. E. Penionzhkevich, A.G. Artukh, A.V. Belozyorov, S.M. Lukyanov, D. Bazin, W.D. Schmidt-Ott R. Neugart Zs. Netmeth, Karlsruhe V. Ninov, F.P. Heßberger, P. Armbruster, S. Hofmann, G. Münzenberg, M. Leino, Y. Fujita, D. Ackermann, W. Morawek, A. Lüttgen A.A. Ogloblin, N.I. Venikov, S.K. Lisin, S.V. Pirozhkov, V.A. Pchelin, Yu. F. Rodionov, V.M. Semochkin, V.A. Shabrov, I.K. Shvetsov, V.M. Shubko, S.P. Tretyakova, V.L. Mikheev Š. Piskoř, W. Schäferlingová A.V. Potempa, V.P. Afanasjev, Ya. Vavryshchuk, K. Ya. Gromov, V.G. Kalinnikov, N. Yu. Kovotskii, V.V. Kuznetsov, M. Lewandowski, Ya. A. Saidimov, M. Yakhim, Zh. Sereter, V.I. Fominykh, V. Charnadski, Yu. V. Yushkevich, M. Yanistki, A. Yasinski W.V. Prestwich, T.J. Kennett, and erratum CJPHA 68,1352 K. Riisager, M.J.G. Borge, H. Gabelmann, P.G. Hansen, L. Johannsen, B. Jonson, W. Kurcewicz, G. Nyman, A. Richter, O. Tengblad, K. Wilhelmsen, ISOLDE E. Ruchowska, J. Żylicz, C.F. Liang, P. Paris, Ch. Briançon K.E. Sale, T.-F. Wang, R.N. Boyd, G.J. Mathews, D.W. Heikkinen, M.L. Roberts, M.S. Islam, P.B. Corn H. Salewski, K. Becker, W.-D. Schmidt-Ott, T. Hild, F. Meissner, E. Runte, R. Michaelsen H. Salewski H. Seyfarth, H.H. Guven, B. Kardon, G. Lhersonneau, K. Sistemich, S. Brant, N. Kaffrell, P. Maier-Komor, H.K. Vonach, V. Paar, D. Vorkapic, R.A. Meyer R.K. Sheline, C.F. Liang, P. Paris A.A. Shihab-Eldin, et al P.C. Sood, R.K. Sheline U. Stöhlker, A. Blönnigen, W. Lippert, H. Wollnik I. Tago, Y. Kawase, K. Okano X.L. Tu, X.G. Zhou, D.J. Vieira, J.M. Wouters, Z.Y. Zhou, H.L. Seifert, V.G. Lind J.K. Tuli A.A. Vasenko, I.V. Kirpichnikov, V.A. Kuznetsov, A.S. Starostin, A.G. Djanyan, V.S. Pogosov, S.P. Shachysisyan, A.G. Tamanyan A.H. Wapstra D. Weselka, P. Hille, A. Chalupka J.A. Winger, J.C. Hill, F.K. Wohn, E.K. Warburton, R.L. Gill, A. Piotrowski, R.B. Schuhmann, D.S. Brenner 1991 1991Aj01 1991An10 NUPAB ZPAAD 523, 338, 1 363 1991Ay.A 1991Ba06 P-Foros NUPAB 523, 261 1991Be25 NUPAB 533, 113 F. Ajzenberg-Selove A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin, A.P. Kabachenko, O.N. Malyshev, G.M. Ter-Akopian, A.V. Yeremin J. Äystö, et al M.K. Balodis, N.D. Kramer, P.T. Prokofjev, A.V. Afanasjev, T.V. Guseva, J.J. Tambergs, K. Schreckenbach, W.F. Davidson, D.D. Warner, J.A. Pinston, P.H.M. van Assche, A.M.J. Spits A. Ben Braham, C. Bourgeois, P. Kilcher, F. Le Blanc, B. Roussière, J. Sauvage, A.J. Kreiner, M.G. Porquet, ISOCELE G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1991Be33 1991Bi04 PRLTA PRVCA 67, 44, 3661 1208 1991Bl05 PRVCA 44, 325 1991Bo20 PRVCA 44, 888 1991Bo22 ZPAAD 339, 311 1991Bo35 NUPAB 534, 255 1991Ej02 PYLBB 258, 17 1991El04 1991Fi03 1991Go19 JPGPE PRVCA NUPAB 17, 43, 531, S145 1066 613 1991Gr12 NUPAB 530, 401 1991Gr13 PRVCA 44, 1728 1991He04 ZPAAD 338, 7 1991He21 ZPAAD 340, 225 1991Hi02 PRVCA 43, 2591 1991Hi.A AnRpt LBL 1991Ho05 JPGPE 17, 145 1991Ho08 1991Hy01 CZYPA PRLTA 41, 67, 525 1708 1991Is01 1991Is02 1991Jo11 PRVCA CJPHA ZPAAD 43, 69, 340, 1086 658 21 1991Ju05 ZPAAD 340, 125 1991Ka41 PYLBB 256, 105 1991Ke06 NIMAE 300, 67 1991Ke08 ZPAAD 339, 355 1991Ke10 NUPAB 534, 77 69 637 M. Bernas, P. Armbruster, S. Czajkowski, H. Faust, J.P. Bocquet, R. Brissot C.R. Bingham, M.B. Kassim, M. Zhang, Y.A. Akovali, K.S. Toth, W.D. Hamilton, H.K. Carter, J. Kormicki, J. von Schwarzenberg, M.M. Jarrio S. Blagus, D. Miljanic, M. Zadro, G. Calvi, M. Lattuada, F. Riggi, C. Spitaleri, C. Blyth, O. Karban R. Bonetti, C. Chiesa, A. Guglielmetti, C. Migliorino, A. Cesana, M. Terrani, P.B. Price A. Bouldjedri, A. Astier, R. Béraud, R. Duffait, A. Emsallem, H. Haas, ISOLDE H.G. Börner, R.F. Casten, I. Förster, D. Lieberz, P. von Brentano, S.J. Robinson, T. von Egidy, G. Hlawatsch, H. Lindner, P. Geltenbort, F. Hoyler, H. Faust, G. Colvin, W.R. Kane, M. MacPhail H. Ejiri, K. Fushimi, T. Kamada, H. Kinoshita, M. Kobiki, H. Ohsumi, K. Okada, H. Sano, T. Shibata, T. Shima, N. Tanabe, J. Tanaka, T. Taniguchi, T. Watanabe, N. Yamamoto S.R. Elliott, M.K. Moe, M.A. Nelson, M.A. Vient R.B. Firestone, J. Gilat, J.M. Nitschke, P.A. Wilmarth, K.S. Vierinen M.G. Gornov, Yu. B. Gurov, P.V. Morokhov, V.A. Pechkurov, V.I. Savelyev, F.M. Sergeev, B.A. Chernyshev, R.R. Shafigullin, A.V. Shishkov, V.P. Koptev, K.O. Oganesyan, B.P. Osipenco J.C. Griffin, R.A. Braga, R.W. Fink, J.L. Wood, H.K. Carter, R.L. Mlekodaj, C.R. Bingham, E. Coenen, M. Huyse, P. Van Duppen V. Grafen, B. Ackermann, H. Baltzer, T. Bihn, C. Günther, J. de Boer, N. Gollwitzer, G. Graw, R. Hertenberger, H. Kader, A. Levon, A. Lösch K. Heiguchi, T. Hosoda, T. Komatsubara, T. Nomura, K. Furuno, R. Nakatani, S. Mitarai, T. Kuroyanagi F. Heine, T. Faestermann, A. Gillitzer, J. Homolka, M. Köpf, W. Wagner, see also 92He. A J.C. Hill, D.D. Schwellenbach, F.K. Wohn, J.A. Winger, R.L. Gill, H. Ohm, K. Sistemich M.M. Hindi, K.L. Wedding, E.B. Norman, K.T. Lesko, B. Sur, R.M. Larimer, M.T.F. da Cruz, K.R. Czerwinski T.H. Hoare, P.A. Butler, G.D. Jones, M. Loiselet, O. Naviliat-Cuncic, J. Vervier, M. Dahlinger, A.M.Y. El-Lawindy, R. Wadsworth, D.L. Watson J. Honzatko, K. Konecny, Z. Kosina J.G. Hykawy, J.N. Nxumalo, P.P. Unger, C.A. Lander, R.C. Barber, K.S. Sharma, R.D. Peters, H.E. Duckworth M.A. Islam, T.J. Kennett, W.V. Prestwich M.A. Islam, T.J. Kennett, W.V. Prestwich A. Jokinen, J. Äystö, P. Dendooven, K. Eskola, Z. Janas, P.P. Jauho, M.E. Leino, J.M. Parmonen, H. Penttilä, K. Rykaczewski, P. Taskinen A. Jungclaus, K.P. Lieb, C.J. Gross, J. Heese, D. Rudolph, D.J. Blumenthal, P. Chowdhury, P.J. Ennis, C.J. Lister, C. Winter, J. Eberth, S. Skoda, M.A. Bentley, W. Gelletly, B.J. Varley H. Kawakami, S. Kato, T. Ohshima, S. Shibata, K. Ukai, N. Morikawa, N. Nogawa, K. Haga, T. Nagafuchi, M. Shigeta, Y. Fukushima, T. Taniguchi H. Keller, R. Kirchner, O. Klepper, E. Roeckl, D. Schardt, R.S. Simon, P. Kleinheinz, C.F. Liang, P. Paris H. Keller, R. Barden, R. Kirchner, O. Klepper, E. Roeckl, D. Schardt, I.S. Grant, A. Plochocki, K. Rykaczewski, J. Szerypo, J. Żylicz, ISOLDE J. Kern, A. Raemy, W. Beer, J.-Cl. Dousse, W. Schwitz, M.K. Balodis, P.T. Prokofjev, N.D. Kramer, L.I. Simonova, R.W. Hoff, D.G. Gardner, M.A. Gardner, R.F. Casten, R.L. Gill, R. Eder, T. von Egidy, E. Hagn, P. Hungerford, H.J. Scheerer, H.H. Schmidt, E. Zech, A. Chalupka, A.V. Murzin, V.A. Libman, I.V. Kononenko, C. Coceva, P. Giacobbe, I.A. Kondurov, Yu. E. Loginov, P.A. Sushkov, S. Brant, V. Paar 638 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1991Ke11 ZPAAD 340, 363 1991Ki04 NUPAB 529, 39 1991Kl02 PRVCA 44, 2801 1991Ko.A 1991Ko.B 1991Kr15 P-Minsk P-Niigata ZPAAD 340, 117 187 419 1991Kr.A 1991Le15 AnRpt LBL ZPAAD 340, 57 107 1991Ly01 PRVCA 44, 1991Mc.A ORNL-6660 764 63 1991Me05 ZPAAD 339, 315 1991Mi08 1991Mi15 ZPAAD NUPAB 338, 530, 371 211 1991No07 JPGPE 17, S291 1991Or01 PYLBB 258, 29 1991Pr02 1991Ra01 PRVCA PRVCA 43, 43, 1781 521 1991Re.A 1991Ro07 PrvCom PRLTA GAu 67, Sep 957 1991Ro.A 1991Ry01 1991Se01 P-PacGrove ADNDA 47, ZPAAD 338, 440 205 245 1991Sh19 PRVCA 44, 2439 1991Su09 PRLTA 66, 2444 1991To08 PRVCA 44, 1868 1991To09 1991Tu02 1991Va04 1991Wa.A 1991Zh24 ZPAAD PRLTA NUPAB PrvCom PYLBB 340, 67, 529, AHW 260, 343 3211 268 1991Zl01 PRLTA 67, 560 285 H. Keller, R. Kirchner, O. Klepper, E. Roeckl, D. Schardt, R.S. Simon, P. Kleinheinz, R. Menegazzo, C.F. Liang, P. Paris, K. Rykaczewski, J. Żylicz, and Thesis H. Keller THD report GSI-91-6 February 1991 S.W. Kikstra, Z. Guo, C. van der Leun, P.M. Endt, S. Raman, T.A. Walkiewicz, J.W. Starner, E.T. Jurney, I.S. Towner N. Klay, F. Kaeppeler, H. Beer, G. Schatz, H. Börner, F. Hoyler, S.J. Robinson, K. Schreckenbach, B. Krusche, U. Mayerhofer, G. Hlawatsch, H. Lindner, T. von Egidy, W. Andrejtscheff, P. Petkov I.A. Kondurov, Yu. E. Loginov, P.A. Sushkov T. Kobayashi K.-L. Kratz, H. Gabelmann, P. Möller, B. Pfeiffer, H.L. Ravn, A. Wöhr, ISOLDE S.A. Kreek, et al M. Lewandowski, A.W. Potempa, V.I. Fominikh, K.Y. Gromov, M. Janicki, J.V. Juschkevich, V.G. Kalinnikov, N.J. Kotovskij, V.V. Kuznetsov, N. Raschkova, J.A. Sajdimov, J. Wawryszczuk J.E. Lynn, E.T. Jurney, S. Raman J.H. McNeill, Y.A. Akovali, C.R. Bingham, J. Breitenbach, H.K. Carter, J.D. Garrett, J. Kormicki, P.F. Mantica F. Meissner, W.-D. Schmidt-Ott, K. Becker, U. Bosch-Wicke, U. Ellmers, H. Salewski, R. Michaelsen S. Michaelsen, K.P. Lieb, S.J. Robinson B.J. Min, S. Suematsu, S. Mitarai, T. Kuroyanagi, K. Heiguchi, M. Matsuzaki E.B. Norman, B. Sur, K.T. Lesko, M.M. Hindi, R.-M. Larimer, T,R. Ho, J.T. Witort, P.N. Luke, W.L. Hansen, E.E. Haller N.A. Orr, W. Mittig, L.K. Fifield, M. Lewitowicz, E. Plagnol, Y. Schutz, W.L. Zhan, L. Bianchi, A. Gillibert, A.V. Belozyorov, S.M. Lukyanov, Yu. E. Penionzhkevich, A.C.C. Villari, A. Cunsolo, A. Foti, G. Audi, C. Stephan, L. Tassan-Got, and PrvCom GAu December 1990, and erratum PYLBB 271(1991)468 P.B. Price, K.J. Moody, E.K. Hulet, R. Bonetti, C. Migliorino S. Raman, T.A. Walkiewicz, S. Kahane, E.T. Jurney, J. Sa, Z. Gacsi, J.L. Weil, K. Allaart, G. Bonsignori, J.F. Shriner,Jr. G. Reusen, M. Huyse R.G.H. Robertson, T.J. Bowles, G.J. Stephenson,Jr., D.L. Wark, J.F. Wilkerson, D.A. Knapp S.J. Robinson, H.G. Börner, S. Judge, J. Jolie, P. Schillebeeckx A. Rytz P.J. Sellin, P.J. Woods, R.D. Page, S.J. Bennett, R.A. Cunningham, M. Freer, B.R. Fulton, M.A.C. Hotchkis, A.N. James K.S. Sharma, E. Hagberg, G.R. Dyck, J.C. Hardy, V.T. Koslowsky, H. Schmeing, R.C. Barber, S. Yuan, W. Perry, M. Watson B. Sur, E.B. Norman, K.T. Lesko, M.M. Hindi, R.-M. Larimer, P.N. Luke, W.L. Hansen, E.E. Haller K.S. Toth, K.S. Vierinen, M.O. Kortelahti, D.C. Sousa, J.M. Nitschke, P.A. Wilmarth K.S. Toth, K.S. Vierinen, J.M. Nitschke, P.A. Wilmarth, R.M. Chasteler A.L. Turkevich, T.E. Economou, G.A. Cowan P. Van Duppen, P. Decrock, P. Dendooven, M. Huyse, G. Reusen, J. Wauters A.H. Wapstra X.G. Zhou, X.L. Tu, J.M. Wouters, D.J. Vieira, K.E.G. Lobner, H.L. Seifert, Z.Y. Zhou, G.W. Butler I. Žlimen, A. Ljubičić, S. Kaučić, B.A. Logan 1992 1992Al.A B-Bernkastel PC2 D.V. Aleksandrov, Yu. A. Glukhov, E. Yu. Nikolskii, B.G. Novatskii, A.A. Ogloblin, D.N. Stepanov G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1992An04 ZPAAD 342, 123 1992An.A P-Bernkastel 1992Ay02 PRLTA 69, 1167 1992Ba01 PRVCA 45, 69 1992Ba28 ZPAAD 342, 125 1992Ba.A 1992Be17 P-Bernkastel ZPAAD 341, 777 155 1992Be30 PRLTA 69, 2341 1992Be.A 1992Bo02 1992Bo05 IPNO-DRE-25 NUPAB 536, NUPAB 539, 260 249 1992Bo28 JMOPE 39, 257 1992Bo37 ZPAAD 344, 135 1992Bo.B 1992Bo.D PrvCom AHW P-Bernkastel Apr 743 1992Br17 1992Bu10 1992Bu12 1992Ch27 1992Co23 1992Cz.A 1992Da03 1992Do10 NUPAB ZPAAD NUPAB PRLTA PYLBB LBL-32 ARISE PRVCA 542, 342, 550, 69, 295, 43, 46, 1 403 179 3151 143 233 69 2127 1992El07 1992Ga15 1992Go10 PRVCA NUPAB PRVCA 46, 550, 46, 1535 1 833 1992Gr02 PRVCA 45, 1058 1992Gr06 NIMAE 311, 512 1992Gr09 ZPAAD 341, 247 1992Gr.A P-Bernkastel 1992Gu03 1992Ha10 1992Ha15 1992Ha21 NUPAB PRVCA NIMAE ZPAAD 759 540, 45, 313, 343, 77 117 1609 237 7 639 A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin, A.P. Kabachenko, O.N. Malyshev, R.N. Sagajdak, G.M. Ter-Akopian, A.V. Yeremin A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin, M. Florek, A.P. Kabachenko, O.N. Malyshev, S. Saro, G.M. Ter-Akopian, M. Veselsky, A.V. Yeremin J. Äystö, A. Astier, T. Enqvist, K. Eskola, Z. Janas, A. Jokinen, K.-L. Kratz, M. Leino, H. Penttilä, B. Pfeiffer, J. Żylicz D. Bazin, R. Del Moral, J.P. Dufour, A. Fleury, F. Hubert, M.S. Pravikoff, R. Anne, P. Bricault, C. Détraz, M. Lewitowicz, Y. Zheng, D. GuillemaudMueller, J.C. Jacmart, A.C. Mueller, F. Pougheon, A. Richard K. Balog, M. Graefenstedt, M. Groß, P. Jürgens, U. Keyser, F. Münnich, T. Otto, F. Schreiber, T. Winkelmann, J. Wulff, ISOLDE P.H. Barker, S.A. Brindhaban M.R. Beitins, S.T. Boneva, V.A. Khitrov, L.A. Malov, Y.P. Popov, P.T. Prokofjev, G.L. Rezvaya, L.I. Simonova, A.M. Sukhovoj, E.V. Vasilieva T. Bernatowicz, J. Brannon, R. Brazzle, R. Cowsik, C. Hohenberg, F. Podosek M. Bernas, et al R. Böttger, H. Schölermann M.J.G. Borge, D.G. Burke, H. Gietz, P. Hill, N. Kaffrell, W. Kurcewicz, G. Løvhøiden, S. Mattsson, R.A. Naumann, K. Nybø, G. Nyman, T.F. Thorsteinsen, ISOLDE G. Bollen, H.-J. Kluge, Th. Otto, G. Savard, L. Schweikhard, H. Stolzenberg, G. Audi, R.B. Moore, G. Rouleau, ISOLDE, and PrvCom GAu November 1991 V. Borrel, R. Anne, D. Bazin, C. Borcea, G.G. Chubarian, R. Del Moral, C. Détraz, S. Dogny, J.P. Dufour, L. Faux, A. Fleury, L.K. Fifield, D. Guillemaud-Mueller, F. Hubert, E. Kashy, M. Lewitowicz, C. Marchand, A.C. Mueller, F. Pougheon, M.S. Pravikoff, M.G. Saint-Laurent, O. Sorlin R. Böttger V.A. Bolshakov, A.G. Dernjatin, K.A. Mezilev, Yu. N. Novikov, A.V. Popov, Yu. Ya. Sergeev, V.I. Tikhonov, V.A. Sergienko, G.V. Veselov A.M. Bruce, W. Gelletly, G.G. Colvin, P. Van Isacker, D.D. Warner D. Bucurescu, M.S. Rapaport, C.F. Liang, P. Paris, G. Cata-Danil D.G. Burke, P.E. Garrett M. Chen, D.A. Imel, T.J. Radcliffe, H. Henrikson, F. Boehm E. Cosulich, G. Gallinaro, F. Gatti, S. Vitale K.R. Czerwinski (thesis) J. Dalmasso, G. Barci-Funel, G.J. Ardisson J. Döring, G. Winter, L. Funke, B. Cederwall, F. Lidén, A. Johnson, A. Atac, J. Nyberg, G. Sletten, M. Sugawara S.R. Elliott, A.A. Hahn, M.K. Moe, M.A. Nelson, M.A. Vient P.E. Garret, D.G. Burke J. Görres, M. Wiescher, K. Scheller, D.J. Morrissey, B.M. Sherrill, D. Bazin, J.A. Winger K.E. Gregorich, H.L. Hall, R.A. Henderson, J.D. Leyba, K.R. Czerwinski, S.A. Kreek, B.A. Khadkodayan, M.J. Nurmia, D.M. Lee, D.C. Hoffman M. Groß, P. Jürgens, U. Keyser, S. Kluge, M. Mehrtens, S. Müller, F. Münnich, J. Wulff H. Grawe, P. Hoff, J.P. Omtvedt, K. Steffensen, R. Eder, H. Haas, H. Ravn, ISOLDE M. Groß, P. Jürgens, S. Kluge, M. Mehrtens, S. Müller, F. Münnich, J. Wulff, see also 87Gr18 Z. Guo, C. Alderliesten, C. van der Leun, P.M. Endt E. Hagberg, X.J. Sun, V.T. Koslowsky, H. Schmeing, J.C. Hardy F.X. Hartmann, R.A. Naumann A. Harder, S. Michaelsen, A. Jungclaus, K.P. Lieb, A.P. Williams, H.G. Börner, M. Trautmannsheimer 640 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1992Ha22 PRVCA 46, 1873 1992Ha.B P-Bernkastel 1992He.A 1992Ho09 1992Hu04 P-Bernkastel PYLBB 287, PRVCA 46, 1992Id01 ZPAAD 341, 427 1992Jo05 NUPAB 549, 420 1992Ju01 PRLTA 69, 2164 1992Ke06 1992Kr01 PHSTB PRVCA 46, 45, 575 1064 1992Kr.A 1992Li09 AnRpt LBL ZPAAD 341, 58 401 783 1992Lo.B UCRL-JC-109951 1992Me10 ZPAAD 343, 331 381 1209 283 1992Mo03 PRVCA 1992Mo15 ZPAAD 45, 342, 1392 273 1992Mo25 PRVCA 1992Mu12 ZPAAD 46, 342, 2624 393 1992Os04 ZPAAD 343, 489 1992Pa05 PRLTA 68, 1287 1992Po14 BRSPE 56, 666 1992Pr03 1992Pr04 1992Ra18 1992Ra19 1992Ro21 ZPAAD ZPAAD PRVCA PRVCA HYIND 342, 342, 46, 46, 75, 23 27 2241 972 457 1992Sa03 NUPAB 540, 83 1992Sc16 NUPAB 545, 646 1992Sc.A P-Bernkastel 627 T.M. Hamilton, K.E. Gregorich, D.M. Lee, K.R. Czerwinski, N.J. Hannink, C.D. Kacher, B. Kadkhodayan, S.A. Kreek, M.J. Nurmia, M.R. Lane, M.P. Neu, A. Türler, D.C. Hoffman E. Hagberg, V.T. Koslowsky, I.S. Towner, J.C. Hardy, J.G. Hykawy, G. Savard, T. Shinozuka, P.P. Unger, H. Schmeing F. Heine, T. Faestermann, A. Gillitzer, H.J. Körner E. Holzschuh, M. Fritschi, W. Kündig M. Huyse, P. Decrock, P. Dendooven, G. Reusen. P. Van Duppen, J. Wauters N. Idrissi, A. Gizon, J. Genevey, P. Paris, V. Barci, D. Barnéoud, J. Blachot, D. Bucurescu, R. Duffait, J. Gizon, C.F. Liang, B. Weiss A. Jokinen, J. Äystö, P.P. Jauho, M. Leino, J.M. Parmonen, H. Penttilä, K. Eskola, Z. Janas M. Jung, F. Bosch, K. Beckert, H. Eickhoff, H. Folger, B. Franzke, A. Gruber, P. Kienle, O. Klepper, W. Koenig, C. Kozhuharov, R. Mann, R. Moshammer, F. Nolden, U. Schaaf, G. Soff, P. Spädtke, M. Steck, T. Stöhlker, K. Sümmerer J. Kern, T. Engel, D. Hagena, G. Werth J.V. Kratz, M.K. Gober, H.P. Zimmermann, M. Schädel, W. Brüchle, E. Schimpf, K.E. Gregorich, A. Türler, N.J. Hannink, K.R. Czerwinski, B. Kadkhodayan, D.M. Lee, M.J. Nurmia, D.C. Hoffman, H. Gäggeler, D. Jost, J. Kovacs, U.W. Scherer, A. Weber S.A. Kreek, et al C.F. Liang, P. Paris, A. Gizon, V. Barci, D. Barneou, R. Béraud, J. Blachot, Ch. Briançon, J. Genevey, R.K. Sheline, and PrvCom GAu September 1992 R.W. Lougheed, et al F. Meissner, H. Salewski, W.-D. Schmidt-Ott, U. Bosch-Wicke, R. Michaelsen K.J. Moody, E.K. Hulet, P.B. Price D.M. Moltz, J.C. Batchelder, T.F. Lang, T.J. Ognibene, J. Cerny, P.E. Haustein, P.L. Reeder K.J. Moody, R.W. Lougheed, E.K. Hulet J. Mukai, A. Odahara, R. Nakatani, Y. Haruta, H. Tomura, B.J. Min, K. Heiguchi, S. Suematsu, S. Mitarai, T. Kuroyanagi A.N. Ostrowski, H.G. Bohlen, A.S. Demyanova, B. Gebauer, R. Kalpakchieva, Ch. Langner, H. Lenske, M. von Lucke-Petsch, W. von Oertzen, A.A. Ogloblin, Y.E. Penionzhkevich, M. Wilpert, Th. Wilpert R.D. Page, P.J. Woods, R.A. Cunningham, T. Davinson, N.J. Davis, S. Hofmann, A.N. James, K. Livingston, P.J. Sellin, A.C. Shotter A.V. Potempa, K. Ya. Gromov, J. Wawryszczuk, V.G. Kalinnikov, V.V. Kuznetsov, M. Levandovsky, J. Saraatar, Ya. Saidimov, V.I. Fominykh, Yu. V. Yushkevich, M.B. Yuldashev M. Przewloka, A. Przewloka, P. Wächter, H. Wollnik M. Przewloka, A. Przewloka, P. Wächter, H. Wollnik S. Raman, J.L. Campbell, A. Prindle, R. Gunnink, J.C. Palathingal S. Raman, E.T. Jurney, J.W. Starner, J.E. Lynn I. Romanski, I. Berkes, D.E. Brown, M. De Jesus, R. Eder, I.S. Grant, E. Hagn, P. Harding, P. Herzog, B. Hinfurtner, B. Kastelein, H. Postma, J. Prinz, P. Richards, K. Schlosser, N.J. Stone, L. Vanneste, E. Zech, NICOLE, ISOLDE J. Sauvage, C. Bourgeois, P. Kilcher, F. Le Blanc, B. Roussière, M.I. Macias-Marques, F. Bragança Gil, M.G. Porquet, H. Dautet, ISOCELE W.-D. Schmidt-Ott, H. Salewski, F. Meissner, U. Bosch-Wicke, P. Koschel, V. Kunze, R. Michaelsen W.-D. Schmidt-Ott, K. Becker, U. Bosch-Wicke, T. Hild, F. Meissner, R. Kirchner, E. Roeckl, K. Rykaczewski G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1992Sh.A P-Bernkastel 1992Te03 ZPAAD 342, 303 1992Th06 NUPAB 548, 71 1992To02 1992Ul.A 1992Wa06 1992Wo03 PRVCA PrvCom PRVCA ARISE 45, AHW 45, 43, 856 Mar 1597 551 1992Wu09 ZPAAD 344, 205 46, 510 1992Xu04 PRVCA 31 641 K.S. Sharma, P. Unger, G.R. Dyck, R.C. Barber, E. Hagberg, J.G. Hykawy, V.T. Koslowsky, J.C. Hardy, H. Schmeing, G. Savard, W. Perry, M. Watson, and PrvCom AHW October 1992 O. Tengblad, M.J.G. Borge, L. Johannsen, B. Jonson, M. Lindroos, T. Nilsson, G. Nyman, A. Poves, H.L. Ravn, J. Retamosa, K. Riisager, P. Sona, K. Wilhelmsen, ISOLDE K. Theine, A.P. Byrne, H. Hubel, M. Murzel, R. Chapman, D. Clarke, F. Khazaie, J.C. Lisle, J.N. Mo, J.D. Garrett, H. Ryde, R. Wyss K.S. Toth, H.J. Kim, J.W. McConnell, C.R. Bingham, D.C. Sousa S. Ulbig T.A. Walkiewicz, S. Raman, E.T. Jurney, J.W. Starner, J.E. Lynn D.H. Woods, S.A. Woods, M.J. Woods, J.L. Makepeace, C.W.A. Downey, D. Smith, A.S. Munster, S.E.M. Lucas, H. Sharma S. Wüstenbecker, H.W. Becker, H. Ebbing, W.H. Schulte, M. Berheide, M. Buschmann, C. Rolfs, G.E. Mitchell, J.S. Schweitzer S.-W. Xu, J.-S. Guo, S.-G. Yuan, M.-Q. Liu, E. Hagberg, V.T. Koslowsky, J.C. Hardy, G. Dyck, H. Schmeing, and erratum PRVCA 46(1992)2644 1993 1993Ab11 1993Al03 PYLBB ZPAAD 316, 344, 26 425 1993An07 ZPAAD 345, 247 1993An19 NIMAE 330, 125 1993As02 1993Ba12 1993Be21 1993Be46 PRVCA PRVCA PRVCA ZPAAD 47, 47, 48, 346, 2954 2038 R1 325 1993Bl.A AnRpt GSI 1993Bo01 NUPAB 551, 54 1993Bo03 ZPAAD 344, 381 1993Bo26 NUPAB 562, 32 1993Bo.A 1993Br22 AnRpt GSI NUPBB 31, 65 76 1993Bu02 1993Ch21 PRVCA PRVCA 47, 48, 131 109 1993Di03 PRVCA 47, 2916 53 H. Abele, G. Helm, U. Kania, C. Schmidt, J. Last, D. Dubbers G.D. Alkhazov, L.H. Batist, A.A. Bykov, F.V. Moroz, S. Yu. Orlov, V.K. Tarasov, V.D. Wittmann A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin, A.P. Kabachenko, O.N. Malyshev, R.N. Sagaidak, G.M. Ter-Akopian, M. Veselsky, A.V. Yeremin A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin, V.A. Gorshkov, K.V. Mikhailov, A.P. Kabachenko, G.S. Popeko, S. Daro, G.M. TerAkopian, A.V. Yeremin K. Ashktorab, J.W. Jänecke, F.D. Becchetti, D.A. Roberts J.C. Batchelder, D.M. Moltz, T.J. Ognibene, M.W. Rowe, J. Cerny G.E. Berman, M.L. Pitt, F.P. Calaprice, M.M. Lowry P. Bednarczyk, G. de Angelis, P. Spolaore, D. Ackermann, J. Rico, D. Bazzacco, S. Lunardi, L. Müller, C. Rossi Alvarez, F. Scarlassara, G.F. Segato, F. Soramel B. Blank, S. Andriamonje, R. Del Moral, J.P. Dufour, A. Fleury, T. Josso, M.S. Pravikoff, S. Czajkowski, Z. Janas, A. Piechaczek, E. Roeckl, K.H. Schmidt, K. Sümmerer, W. Trinder, M. Weber, T. Brohm, A. Grewe, E. Hanelt, A. Heinz, A. Junghans, C. Rohl, S. Steinhauser, B. Voss, M. Pfützner V.A. Bondarenko, I.L. Kuvaga, P.T. Prokofjev, V.A. Khitrov, Yu. V. Kholnov, Le Hong Khiem, Yu. P. Popov, A.M. Sukhovoj, S. Brant, V. Paar, V. Lopac H.G. Bohlen, B. Gebauer,M. von Lucke-Petsch, W. von Oertzen, A.N. Ostrowski, M. Wilpert, Th. Wilpert, H. Lenske, D.V. Alexandrov, A.S. Demyanova, E. Nikolskii, A.A. Korsheninnikov, A.A. Ogloblin, R. Kalpakchieva, Y.E. Penionzhkevich, Š. Piskoř R. Bonetti, C. Chiesa, A. Guglielmetti, R. Matheoud, C. Migliorino, A.L. Pasinetti, H.L. Ravn F. Bosch, M. Jung R.L. Brodzinski, F.T. Avignone, J.I. Collar, H. Courant, E. Garcia, C.K. Guerard, W.K. Hensley, I.V. Kirpichnikov, H.S. Miley, A. Morales, J. Morales, R. Nunez-Lagos, S.B. Osetrov, V.S. Pogosov, A.A. Pomansky, J. Puimedon, J.H. Reeves, K. Ruddick, C. Saenz, A. Salinas, M.L. Sarsa, A.A. Smolnikov, A.S. Starostin, A.G. Tamanyan, S.I. Vasilev, J.A. Villar D.G. Burke, P.C. Sood, P.E. Garrett, Tao Qu, R.K. Sheline, R.W. Hoff R.E. Chrien, B.K.S. Koene, M.L. Stelts, R.A. Meyer, S. Brant, V. Paar, V. Lopac D.E. DiGregorio, S. Gil, H. Huck, E.R. Batista, A.M.J. Ferrero, A.O. Gattone 642 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1993Dm02 ARISE 44, 1097 1993Do05 PRVCA 47, 2560 1993Dr.A P-Fribourg 1993Go37 1993Go38 1993Gr17 1993Gr.C PRVAA 47, IJMPD 128, NIMAE 337, AnRpt Berkeley 3433 47 106 76 1993Ha05 1993Ho.A ZPAAD 345, AnRpt GSI 143 64 1993Ja03 NUPAB 552, 340 1993Je06 PHSTB 48, 399 1993Ka12 1993Kl02 PRVCA PRVCA 47, 47, 2452 2502 1993Li10 NUCIA 106, 163 1993Li18 PYLBB 312, 46 1993Li34 PRVCA 48, 2151 1993Li40 PRVCA 48, 3113 1993Ma50 NUPAB 1993Mi04 NUPAB 565, 552, 543 232 1993Mo01 PRLTA 70, 394 1993Mo18 NUPAB 563, 21 1993Nx01 PYLBB 302, 13 1993Nx02 PYLBB 312, 388 1993Oh02 PRVDA 47, 4840 1993Os06 NIMAE 332, 169 1993Pe11 NUPAB 561, 416 1993Po.A 1993Pr.A PrvCom GAu P-Fribourg Dec 441 305 S.N. Dmitriev, Yu. Ts. Oganessian, G.V. Buklabov, Yu. P. Kharitonov, A.F. Novgorodov, L.I. Salamatin, G. Ya. Starodub, S.V. Shishkin, Yu. V. Yushkevich, D. Newton J. Döring, J.W. Holcomb, T.D. Johnson, M.A. Riley, S.L. Tabor, P.C. Womble, G. Winter S. Drissi, M. Deleze, P.E. Garrett, J. Jolie, J. Kern, S.J. Mannanal, P.A. Tercier, J.P. Vorlet, N. Warr, G. Mouze, C. Ythier, H.G. Borner, F. Hoyler, S. Judge, K. Schreckenbach, A. Williams M.V. Gorshkov, G.M. Alber, L. Schweikhard, A.G. Marshall M.V. Gorshkov, S. Guan, A.G. Marshall R.C. Greenwood, M.H. Putnam K.E. Gregorich, C.D. Kacher, M.F. Mohar, D.M. Lee, M.R. Lane, E.R. Sylwester, D.C. Hoffman, M. Schädel, W. Brüchle, J.V. Kratz, R. Günther and AnRpt GSI p.14 A. Harder, S. Michaelsen, K.P. Lieb, A.P. Williams S. Hofmann, V. Ninov, F.P. Heßberger, H. Folger, G. Münzenberg, H.J. Schött, P. Armbruster, A.N. Andreyev, A.G. Popeko, A.V. Yeremin, M.E. Leino, R. Janik, S. Saro, M. Veselsky, and PrvCom AHW September 1995 Z. Janas, J. Äystö, K. Eskola, P.P. Jauho, A. Jokinen, J. Kownacki, M. Leino, J.M. Parmonen, H. Penttilä, J. Szerypo, J. Żylicz R. Jertz, D. Beck, G. Bollen, J. Emmes, H.-J. Kluge, E. Schark, S. Schwarz, T. Schwarz, L. Schweikhard, P. Senne C. Carlberg, I. Bergström, H. Borgenstrand, G. Rouleau, R. Schuch, F. Söderberg A. Kawashima, K. Takahashi, A. Masuda G. Klotz, P. Baumann, M. Bounajma, A. Huck, A. Knipper, G. Walter, G. Marguier, C. Richard-Serre, A. Poves, J. Retamosa Sr. Little Flower, B.R.S. Babu, K. Neelakandan, R.N. Mukherjee, B.B. Baliga K. Livingston, P.J. Woods, T. Davinson, N.J. Davis, S. Hofmann, A.N. James, R.D. Page, P.J. Sellin, A.C. Shotter K. Livingston, P.J. Woods, T. Davinson, N.J. Davis, S. Hofmann, A.N. James, R.D. Page, P.J. Sellin, A.C. Shotter K. Livingston, P.J. Woods, T. Davinson, N.J. Davis, A.N. James, R.D. Page, P.J. Sellin, A.C. Shotter G. Mairle, M. Seeger, H. Reinhardt, T. Kihm, K.T. Knöpfle, Chen Lin Wen S. Michaelsen, A. Harder, K.P. Lieb, G. Graw, R. Hertenberger, D. Hofer, P. Schiemenz, E. Zanotti, H. Lenske, A. Weigel, H.H. Wolter, S.J. Robinson, A.P. Williams J.L. Mortara, I. Ahmad, K.P. Coulter, S.J. Freedman, B.K. Fujikawa, J.P. Greene, J.P. Schiffer, W.H. Trzaska, A.R. Zeuli K.J. Moody, R.W. Lougheed, J.F. Wild, R.J. Dougan, E.K. Hulet, R.W. Hoff, C.M. Henderson, R.J. Dupzyk, R.L. Hahn, K. Sümmerer, G.D. O’Kelley, G.R. Bethune J.N. Nxumalo, J.G. Hykawy, P. P Unger, C.A. Lander, R.C. Barber, K.S. Sharma, H.E. Duckworth J.N. Nxumalo, J.G. Hykawy, K.J. Aarts, R.C. Barber, K.S. Sharma, H.E. Duckworth T. Ohshima, H. Sakamoto, T. Sato, J. Shirai, T. Tsukamoto, Y. Sugaya, K. Takahashi, T. Suzuki, C. Rosenfeld, S. Wilson, K. Ueno, Y. Yonezawa, H. Kawakami, S. Kato, S. Shibata, K. Ukai A. Osa, T. Ikuta, M. Shibata, M. Miyachi, H. Yamamoto, K. Kawade, Y. Kawase, S. Ichikawa H. Penttilä, T. Enqvist, P.P. Jauho, A. Jokinen, M. Leino, J.M. Parmonen, J. Äystö, K. Eskola F. Pougheon P.T. Prokofjev, A.V. Afanasjev, M.R. Beitins, L.I. Simonova, M.K. Balodis, G.L. Rezvaja G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1993Qu03 ZPAAD 346, 119 1993Ru01 1993Ru03 ADNDA PRVCA 53, 47, 1 2574 1993Se04 PRVCA 47, 1933 1993Se09 ZPAAD 346, 323 1993Sh07 1993Sh23 JPGPE ARISE 19, 44, 617 923 1993Si05 NIMAE 330, 195 1993Sp.A AnRpt JYFL 1993To04 1993To05 1993Va04 1993Wa03 PRVCA PRVCA PRLTA ZPAAD 48, 48, 70, 345, 436 445 2888 21 1993Wa04 PRVCA 47, 1447 1993We03 PYLBB 300, 210 1993Wi03 PYLBB 299, 214 1993Wi05 PRLTA 70, 1759 1993Yo07 PRLTA 71, 4124 1993Yu03 ZPAAD 346, 187 95 643 A.B. Quint, W. Reisdorf, K.-H. Schmidt, P. Armbruster, F.P. Heßberger, S. Hofmann, J. Keller, G. Münzenberg, H. Stelzer, H.-G. Clerc, W. Morawek, C.-C. Sahm G. Rudstam, K. Aleklett, L. Sihver D. Rudolph, C.J. Gross, M.K. Kabadiyski, K.P. Lieb, M. Weiszflog, H. Grawe, J. Heese, K.-H. Maier, J. Eberth P.J. Sellin, P.J. Woods, T. Davinson, N.J. Davis, K. Livingston, R.D. Page, A.C. Shotter, S. Hofmann, A.N. James P.J. Sellin, P.J. Woods, T. Davinson, N.J. Davis, A.N. James, K. Livingston, R.D. Page, A.C. Shotter R.K. Sheline, J. Kvasil, C.F. Liang, P. Paris M. Shibata, M. Asai, T. Ikuta, H. Yamamoto, J. Ruan, K. Okano, K. Aoki, K. Kawade M.H. Sidky, J.G. Hyckawy, G.R. Dyck, R.C. Barber, K.S. Sharma, C.A. Lander, H.E. Duckworth A.M. Spits, P.H.M. Van Assche, H.G. Borner, W.F. Davidson, D.D. Warner, K. Schreckenbach, G.G. Colvin, R.C. Greenwood, C.W. Reich, P.O. Lipas, J. Suhonen, P. Sinkko, A. Backlin K.S. Toth, D.C. Sousa, J.M. Nitschke, K.S. Vierinen, P.A. Wilmarth K.S. Toth, P.A. Wilmarth, J.M. Nitschke, D.C. Sousa R.S. Van Dyck,Jr., D.L. Farnham, P.B. Schwinberg J. Wauters, P. Dendooven, M. Huyse, G. Reusen, P. Van Duppen, R. Kirchner, O. Klepper, E. Roeckl J. Wauters, P. Dendooven, M. Huyse, G. Reusen, P. Van Duppen, P. Lievens, ISOLDE Ch. Weinheimer, M. Przyrembel, H. Backe, H. Barth, J. Bonn, B. Degen, Th. Edling, H. Fischer, L. Fleischmann, J.U. Grooß, R. Haid, A. Hermanni, G. Kube, P. Leiderer, Th. Loeken, A. Moltz, R.B. Moore, A. Osipowicz, E.W. Otten, A. Picard, M. Schrader, M. Steininger J.A. Winger, D. Bazin, W. Benenson, G.M. Crawley, D.J. Morrissey, N.A. Orr, R. Pfaff, B.M. Sherrill, M. Steiner, M. Thoennessen, S.J. Yennello, B.M. Young F.E. Wietfeldt, Y.D. Chan, M.T.F. da Cruz, A. Garcı́a, R.-M. Larimer, K.T. Lesko, E.B. Norman,R.G. Stokstad, I. Žlimen B.M. Young, W. Benenson, M. Fauerbach, J.H. Kelley, R. Pfaff, B.M. Sherrill, M. Steiner, J.S. Winfield, T. Kubo, M. Hellström, N.A. Orr, J. Stetson, J.A. Winger, S.J. Yennello S. Yuan, T. Zhang, S. Xu, Z. Li, Q. Pan, Z. Zhao, W. Yang, X. Zhang, W. Li, X. Yin, Y. Du, Y. Wang 1994 1994Ah03 NUPAB 576, 246 1994An01 NUPAB 568, 323 1994An02 ZPAAD 347, 225 1994Ar23 1994Ba06 NIMAE PRVCA 339, 49, 168 1221 1994Ba15 PYLBB 322, 176 1994Ba50 PRVCA 50, 1180 I. Ahmad, J.E. Gindler, M.P. Carpenter, D.J. Henderson, E.F. Moore, R.V.F. Janssens, I.G. Bearden, C.C. Foster A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin, A.P. Kabachenko, O.N. Malyshev, Yu. A. Muzychka, B.I. Pustylnik, G.M. Ter-Akopian, A.V. Yeremin A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin, A.P. Kabachenko, O.N. Malyshev, A.G. Popeko, R.N. Sagaidak, G.M. Ter-Akopian, M. Veselsky, A.V. Yeremin G. Ardisson, V. Barci, O. El Samad V. Banerjee, A. Banerjee, G.S.N. Murthy, R.P. Sharma, S.K. Pardha Saradhi, A. Chakrabarti A. Balysh, M. Beck, S.T. Belyaev, F. Bensch, J. Bockholt, A. Demekhin, A. Gurov, G. Heusser, H.V. Klapdor-Kleingrothaus, I. Kondratenko, D. Kotelnikov, V.I. Lebedev, B. Maier, A. Muller, F. Petry, A. Piepke, A. Pronsky, H. Strecker, M. Vollinger, K. Zuber P. Baumann, M. Bounajma, A. Huck, G. Klotz, A. Knipper, G. Walter, G. Marguier, C. Richard-Serre, H. Ravn, E. Hagebø, P. Hoff, K. Steffensen 644 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1994Be24 PYLBB 331, 19 1994Bl10 PRVCA 50, 2398 1994Bo28 NUPAB 576, 21 1994Br11 1994Br37 1994Bu18 PRVCA NIMAE ZPAAD 49, 340, 349, 2401 436 3 1994Cz02 ZPAAD 348, 267 1994De04 NUPAB 568, 141 1994Do08 PRVCA 49, 1867 1994Gi07 1994Go.A 1994Gr07 PRVCA PrvCom PRVCA 50, AHW 49, 2612 Jul 2971 1994Gr08 PRLTA 72, 1423 1994Ha.A 1994He08 1994He28 Th.-Mainz PRVCA PRVCA 49, 50, 1845 2219 1994Hi04 1994Hi05 PRVCA PRVCA 49, 50, 3289 728 1994Hy01 PRVCA 50, 1249 1994Ib01 ZPAAD 350, 9 1994It.A 1994Jo.A 1994Ka39 P-Tokai Th.-Jyvaskyla ZPAAD 350, 185 1994Ke.B 1994Ki.A 1994Ko16 AnRpt LBL AnRpt CSNSM PYLBB 326, 85 31 1994Ko.A 1994Kr03 AnRpt AECL PRVCA 49, 3-1 1859 183 M. Bernas, S. Czajkowski, P. Armbruster, H. Geissel, Ph. Dessagne, C. Donzaud, H.-R. Faust, E. Hanelt, A. Heinz, M. Heese, C. Kozhuharov, Ch. Miehé, G. Münzenberg, M. Pfützner, C. Röhl, K.-H. Schmidt, W. Schwab, C. Stéphan, K. Sümmerer, L. Tassan-Got, B. Voss B. Blank, S. Andriamonje, R. Del Moral, J.P. Dufour, A. Fleury, T. Josso, M.S. Pravikoff, S. Czajkowski, Z. Janas, A. Piechaczek, E. Roeckl, K.H. Schmidt, K. Sümmerer, W. Trinder, M. Weber, T. Brohm, A. Grewe, E. Hanelt, A. Heinz, A. Junghans, C. Rohl, S. Steinhauser, B. Voss, M. Pfützner R. Bonetti, C. Chiesa, A. Guglielmetti, C. Migliorino, P. Monti, A.L. Pasinetti, H.L. Ravn S.A. Brindhaban, P.H. Barker S.A. Brindhaban, P.H. Barker, M.J. Keeling, W.B. Wood D. Bucurescu, D. Barnéoud, R. Béraud, G. Cata-Danil, T. von Egidy, A. Emsallem, J. Genevey, A. Gizon, J. Gizon, C.F. Liang, P. Paris, C.A. Ur, B. Weiss S. Czajkowski, M. Bernas, P. Armbruster, H. Geissel, C. Kozhuharov, G. Münzenberg, D. Vieira, Ph. Dessagne, Ch. Miehé, E. Hanelt, G. Audi, J.K.P. Lee M.E. Debray, A.J. Kreiner, M. Davidson, J. Davidson, D. Hojman, D. Santos, V.R. Vanin, N. Schutz, M. Aiche, A. Chevallier, J. Chevallier, J.C. Sens M. Dombsky, L. Buchmann, J.M. D’Auria, U. Giesen, K.P. Jackson, J.D. King, E. Korkmaz, R.G. Korteling, P. McNeely, J. Powell, G. Roy, M. Trinczek, J. Vincent R.L. Gill M.V. Gorshkov P. Grabmayer, A. Mondry, G.J. Wagner, P. Woldt, G.P.A. Berg, J. Lisantti, D.W. Miller, H. Nann, E.J. Stephenson K.E. Gregorich, M.R. Lane, M.F. Mohar, D.M. Lee, C.D. Kacher, E.R. Sylwester, D.C. Hoffman H. Hartmann R.G. Helmer, C.W. Reich M. Hencheck, R.N. Boyd, M. Hellström, D.J. Morrissey, M.J. Balbes, F.R. Chloupek, M. Fauerbach, C.A. Mitchell, R. Pfaff, C.F. Powell, G. Raimann, B.M. Sherrill, M. Steiner, J. Vandegriff, S.J. Yennello M.M. Hindi, R.L. Kozub, S.J. Robinson M.M. Hindi, A.E. Champagne, M.T.F. da Cruz, R.-M. Larimer, K.T. Lesko, E.B. Norman, B. Sur J.G. Hykawy, R.C. Barber, K.S. Sharma, K.J. Aarts, J.N. Nxumalo, H.E. Duckworth F. Ibrahim, P. Kilcher, B. Roussière, J. Sauvage, J. Genevey, A. Gizon, A. Knipper, G. Marguier, D. Barnéoud, R. Béraud, G. Cata-Danil, J. Blachot, I. Deloncle, R. Duffait, A. Emsallem, D. Hojman, A.J. Kreiner, F. Le Blanc, J. Libert, J. Oms S. Itoh, M. Yasuda, H. Yamamoto, T. Iida, A. Takahashi, K. Kawade A. Jokinen H. Kaur, J. Goswamy, J. Singh, A. Sharma, D. Mehta, N. Singh, R.K. Bhowmik, P.N. Trehan D.A. Keeney, et al J.B. Kim, et al A.A. Korsheninnikov, K. Yoshida, D.V. Aleksandrov, N. Aoi, Y. Doki, N. Inabe, M. Fujimaki, T. Kobayashi, H. Kumagai, C.-B. Moon, E. Yu. Nikolskii, M.M. Obuti, A.A. Ogloblin, A. Ozawa, S. Shimoura, T. Suzuki, I. Tanihata, Y. Watanabe, M. Yanokura V.T. Koslowsky, E. Hagberg, G. Savard, M.J. Watson, J.C. Hardy S.A. Kreek, H.L. Hall, K.E. Gregorich, R.A. Henderson, J.D. Leyba, K.R. Czerwinski, B. Kadkhodayan, M.P. Neu, C.D. Kacher, T.M. Hamilton, M.R. Lane, E.R. Sylwester, A. Türler, D.M. Lee, M.J. Nurmia, D.C. Hoffman G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1994Kr13 PRVCA 50, 2288 1994La22 PRLTA 73, 624 1994Le05 ZPAAD 348, 151 1994Le22 NUPAB 576, 267 1994Li12 1994Li20 1994Lo04 1994Ma14 1994Mo.A 1994Os04 PRVCA PRVCA NIMAE PRVCA PrvCom PYLBB 49, 49, 339, 49, GAu 338, 2230 3098 164 1755 Oct 13 1994Ot01 NUPAB 567, 281 1994Pa11 PRVCA 49, 3312 1994Pa12 PRLTA 72, 1798 1994Pa37 NUPAB 580, 173 1994Po26 IANFA 58, 41 1994Ru19 PLSSA 42, 227 1994Sa31 PRVCA 50, 1170 1994Sc35 ZPAAD 350, 99 1994Se01 PYLBB 321, 323 1994Se12 ZPAAD 349, 25 1994Sh02 1994Sh07 PRVCA ZPAAD 49, 348, 725 25 1994St31 ZPAAD 347, 287 1994Ti03 PRVCA 49, 2871 1994To10 1994Ts.A PRVCA 50, AnRpt JAERI 518 16 645 S.A. Kreek, H.L. Hall, K.E. Gregorich, R.A. Henderson, J.D. Leyba, K.R. Czerwinski, B. Kadkhodayan, M.P. Neu, C.D. Kacher, T.M. Hamilton, M.R. Lane, E.R. Sylwester, A. Türler, D.M. Lee, M.J. Nurmia, D.C. Hoffman Yu. A. Lazarev, Yu. V. Lobanov, Yu. Ts. Oganessian, V.K. Utyonkov, F. Sh. Abdullin, G.V. Buklanov, B.N. Gikal, S. Iliev, A.N. Mezentsev, A.N. Polyakov, I.M. Sedykh, I.V. Shirokovsky, V.G. Subbotin, A.M. Sukhov, Yu. S. Tsyganov, V.E. Zhuchko, R.W. Lougheed, K.J. Moody, J.F. Wild, E.K. Hulet, J.H. McQuaid M. Leino, J. Uusitalo, T. Enqvist, K. Eskola, A. Jokinen, K. Loberg, W.H. Trzaska, J. Äystö A.I. Levon, J. de Boer, G. Graw, R. Hertenberger, D. Hofer, J. Kvasil, A. Lösch, E. Müller-Zanotti, M. Würkner, H. Baltzer, V. Grafen, C. Günther C.F. Liang, R.K. Sheline, P. Paris, M. Hussonois, J.F. Ledu, D.B. Isabelle S. Lin, S.A. Brindhaban, P.H. Barker J.M. Los Arcos, L. Rodriguez, M. Roteta, E. Garcia-Torano P.V. Magnus, E.G. Adelberger, A. Garcı́a D.M. Moltz A.N. Ostrowski, H.G. Bohlen, B. Gebauer, S.M. Grimes, R. Kalpakchieva, Th. Kirchner, T.N. Massey, W. von Oertzen, Th. Stolla, M. Wilpert, Th. Wilpert T. Otto, G. Bollen, G. Savard, L. Schweikhard, H. Stolzenberg, G. Audi, R.B. Moore, G. Rouleau, J. Szerypo, Z. Patyk, ISOLDE R.D. Page, P.J. Woods, R.A. Cunningham, T. Davinson, N.J. Davis, A.N. James, K. Livingston, P.J. Sellin, A.C. Shotter R.D. Page, P.J. Woods, R.A. Cunningham, T. Davinson, N.J. Davis, A.N. James, K. Livingston, P.J. Sellin, A.C. Shotter G. Passler, J. Rikovska, E. Arnold, H.-J. Kluge, L. Monz, R. Neugart, H. Ravn, K. Wendt, ISOLDE A.V. Potempa, G.V. Veselov, V.A. Sergienko, K. Ya. Gromov, S.V. Evtisov, V.G. Kalinnikov, V.V. Kuznetsov, Zh. Sereeter, V.I. Fominykh, M.B. Yuldashev W. Rühm, B. Schneck, K. Knie, G. Korschinek, L. Zerle, E. Nolte, D. Weselka, H. Vonach C. Sáenz, E. Cerezo, E. Garcia, A. Morales, J. Morales, R. Nunez-Lagos, A. Ortiz de Solorzano, J. Puimedon, A. Salinas, M.L. Sarsa, J.A. Villar, A. Klimenko, V. Kuzminov, N. Metlinsky, V. Novikov, A. Pomansky, B. Pritychenko K. Schmidt, T.W. Elze, R. Grzywacz, Z. Janas, R. Kirchner, O. Klepper, A. Plochocki, E. Roeckl, K. Rykaczewski, L.D. Skouras, J. Szerypo D. Seweryniak, J. Cederkall, B. Cederwall, J. Blomqvist, C. Fahlander, A. Johnson, L.-O. Norlin, J. Nyberg, A. Atac, A. Kerek, J. Kownacki, R. Wyss, E. Adamides, H. Grawe, E. Ideguchi, R. Julin, S. Juutinen, W. Karczmarczyk, S. Mitarai, M. Piiparinen, R. Schubart, G. Sletten, S. Tormanen, A. Virtanen H.L. Seifert, J.M. Wouters, D.J. Vieira, H. Wollnik, X.G. Zhou, X.L. Tu, Z.Y. Zhou, G.W. Butler R.K. Sheline, C.F. Liang, P. Paris, A. Gizon, V. Barci T. Shizuma, M. Kidera, E. Ideguchi, A. Odahara, H. Tomura, S. Suematsu, T. Kuroyanagi, Y. Gono, S. Mitarai, J. Mukai, T. Komatsubara, K. Furuno, K. Heiguchi M.-L. Stolzenwald, G. Lhersonneau, M. Liang, G. Molnar, H. Ohm, K. Sistemich R.J. Tighe, D.M. Moltz, J.C. Batchelder, T.J. Ognibene, M.W. Rowe, J. Cerny K.S. Toth K. Tsukada, M. Asai, S. Ichikawa, A. Osa, Y. Nagame, I. Nishinaka, N. Shinohara, Y. Hatsukawa, H. Iimura, K. Kawade, H. Yamamoto, M. Shibata, Y. Kojima 646 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1994Wa17 PRVCA 1994Wa23 PRVCA 50, 50, 487 2768 1994We02 ZPAAD 347, 185 1994Xu09 ZPAAD 350, 187 1994Ya07 PYLBB 334, 229 1994Ye08 NIMAE 350, 608 1994Yo01 PRVCA 49, 279 1994Zh02 PRVCA 49, R592 C. Wagemans, S. Druyts, P. Geltenbort J. Wauters, N. Bijnens, H. Folger, M. Huyse, H.Y. Hwang, R. Kirchner, J. von Schwarzenberg, P. Van Duppen C. Wennemann, W.-D. Schmidt-Ott, T. Hild, K. Krumbholz, V. Kunze, F. Meissner, H. Keller, R. Kirchner, E. Roeckl S. Xu, Y. Xie, Q. Pan, Y. Wang, X. Zhang, J. Zhang, Y. Ge, X. Yin, C. Wang, T. Zhang, B. Guo S. Yasumi, H. Maezawa, K. Shima, Y. Inagaki, T. Mukoyama, T. Mizogawa, K. Sera, S. Kishimoto, M. Fujioka, K. Ishii, T. Omori, G. Izawa, O. Kawakami A.V. Yeremin, A.N. Andreyev, D.D. Bogdanov, G.M. Ter-Akopian, V.I. Chepigin, V.A. Gorshkov, A.P. Kabachenko, O.N. Malyshev, A.G. Popeko, R.N. Sagaidak, S. Sharo, E.N. Voronkov, A.V. Taranenko, A. Yu. Lavrentjev B.M. Young, W. Benenson, J.H. Kelley, N.A. Orr, R. Pfaff, B.M. Sherrill, M. Steiner, M. Thoennessen, J.S. Winfield, J.A. Winger, S.J. Yennello, A. Zeller L. Zhang, G. Jin, J. Zhao, W. Yang, Y. Yang, Z. Zhao, J. Zheng, X. Sun, J. Wang, Z. Li, Z. Qin, G. Guo, Y. Luo, J. Żylicz, J.-Y. Zhang 1995 1995Al31 PZETA 62, 1995Am.A P-Arles 18 537 1995Ap.A 1995Ba28 PrvCom PRLTA GAu 74, May 3569 1995Ba75 PRVCA 52, 1807 1995Bi01 PRVCA 51, 125 1995Bi17 PRLTA 75, 4571 1995Bi.A P-Arles 1995Bl01 NUPAB 582, 296 1995Bl06 PRLTA 74, 4611 1995Bl23 PYLBB 364, 8 1995Bo03 NUPAB 582, 1 1995Bo05 NUPAB 584, 279 545 D.V. Aleksandrov, E. Yu. Nikolsky, B.G. Novatsky, D.N. Stepanov, V. Buryan, V. Kroga, Ya. Novak F. Ameil, P. Armbruster, M. Bernas, S. Czajkowski, P. Dessagne, C. Donzaud, H. Geissel, A. Grewe, E. Hanelt, A. Heinz, Z. Janas, M. de Jong, C. Kozhuharov, Ch. Miehé, W. Schwab, S. Steinhäuser, and GSINachrichten 11-95 A. Aprahamian, D.S. Brenner, R. Gill, A. Piotrowski, R.F. Casten D. Bazin, B.A. Brown, J. Brown, M. Fauerbach, M. Hellström, S.E. Hirzebruch, J.H. Kelley, R.A. Kryger, D.J. Morrissey, R. Pfaff, C.F. Powell, B.M. Sherrill, M. Thoennessen J.C. Batchelder, K.S. Toth, D.M. Moltz, T.J. Ognibene, M.W. Rowe, C.R. Bingham, E.F. Zganjar, B.E. Zimmerman C.R. Bingham, M.B. Kassim, M. Zhang, Y.A. Akovali, K.S. Toth, W.D. Hamilton, H.K. Carter, J. Kormicki, J. von Schwarzenberg, M.M. Jarrio N. Bijnens, P. Decrock, S. Franchoo, M. Gaelens, M. Huyse, H.-Y. Hwang, G. Reusen, J. Szerypo, J. von Schwarzenberg, J. Wauters, J.G. Correia, A. Jokinen, P. Van Duppen, ISOLDE C.R. Bingham, J.D. Richards, B.E. Zimmerman, Y.A. Akovali, W.B. Walters, J. Rikovska, P. Joshi, E.F. Zganjar, M. Lindroos, O. Tengblad, P. Van Duppen, ISOLDE, and PrvCom GAu June 1995 J. Blons, D. Goutte, A. Lepretre, R. Letourneau, R. Lucas, V. Meot, D. Paya, X.H. Phan, J. Girard, G. Barreau, T.P. Doan, G. Pedemey, Ph. Dessagne, Ch. Miehé B. Blank, S. Andriamonje, S. Czajkowski, F. Davi, R. Del Moral, J.P. Dufour, A. Fleury, A. Musquére, M.S. Pravikoff, R. Grzywacz, Z. Janas, M. Pfützner, A. Grewe, A. Heinz, A. Junghans, M. Lewitowicz, J.E. Sauvestre, C. Donzaud B. Blank, S. Andriamonje, S. Czajkowski, F. Davi, R. Del Moral, C. Donzaud, J.P. Dufour, A. Fleury, A. Grewe, R. Grzywacz, A. Heinz, Z. Janas, A. Junghans, M. Lewitowicz, A. Musquére, M.S. Pravikoff, M. Pfützner, J.-E. Sauvestre V.A. Bondarenko, I.L. Kuvaga, P.T. Prokofjev, A.M. Sukhovoj, V.A. Khitrov, Yu. P. Popov, S. Brant, V. Paar V.A. Bondarenko, I.L. Kuvaga, P.T. Prokofjev, A.M. Sukhovoj, V.A. Khitrov, Yu. P. Popov, S. Brant, V. Paar, Lj. Šimičic G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1995Bo10 NUPAB 583, 775c 1995Bo18 PRVCA 51, 2530 1995Bo.B P-StPetersbg 1995Br24 NUPAB 595, 481 1995Bu11 NUPAB 587, 475 1995Ch74 BRSPE 59, 1854 1995Cz.A P-Arles 1995Da14 1995Da37 ZPAAD PRVDA 351, 51, 225 2090 1995Di08 1995Fa.A PHSTB T59, AnRpt GSI 144 21 1995Fe12 ZPAAD 353, 9 1995Ga04 1995Ga.A NUPAB P-Arles 581, 267 595 1995Ge06 NUPAB 592, 307 1995Ge14 YAFIA 58, 1170 1995Gh04 NUPAB 583, 861c 1995Gu01 NUPAB 583, 867c 1995Gu10 PRVCA 52, 740 553 647 H.G. Bohlen, B. Gebauer, Th. Kirchner, M. von Lucke-Petsch, W. von Oertzen, A.N. Ostrowski, Ch. Seyfert, Th. Stolla, M. Wilpert, Th. Wilpert, S.M. Grimes, T.N. Massey, R. Kalpakchieva, Y.E. Penionzhkevich, D.V. Alexandrov, I. Mukha, A.A. Ogloblin, C. Détraz R. Bonetti, C. Chiesa, A. Guglielmetti, R. Matheoud, G. Poli, V.L. Mikheev, S.P. Tretyakova H.G. Bohlen, B. Gebauer, M. von Lucke-Petsch, W. von Oertzen, A.N. Ostrowski, Ch. Seyfert, Th. Stolla, M. Wilpert, Th. Wilpert, R. Kalpakchieva, Yu. E. Penionzhkevich, S.M. Grimes, T.N. Massey, I. Mukha, D.V. Alexandrov, A.A. Ogloblin, H. Lenske J.B. Breitenbach, J.L. Wood, M. Jarrio, R.A. Braga, H.K. Carter, J. Kormicki, P.B. Semmes D. Bucurescu, D. Barnéoud, Gh. Cata-Danil, T. von Egidy, J. Genevey, A. Gizon, J. Gizon, C.F. Liang, P. Paris, B. Weiss, S. Brant, V. Paar, R. Pezer V.G. Chumin, S.S. Eliseev, K. Ya. Gromov, Yu. V. Norseev, V.I. Fominykh, V.V. Tsupko-Sitnikov S. Czajkowski, F. Ameil, P. Armbruster, M. Bernas, P. Dessagne, C. Donzaud, C. Engelmann, H.-R. Faust, H. Geissel, E. Hanelt, A. Heinz, M. Hesse, C. Kozhuharov, C. Miehé, G. Münzenberg, M. Pfützner, C. Röhl, K.-H. Schmidt, W. Schwab, C. Stéphan, K. Sümmerer, L. Tassan-Got, B. Voss M. Daszewski, Z. Janas, W. Kurcewicz, B. Szweryn D. Dassié, R. Eschbach, F. Hubert, Ph. Hubert, M.C. Isaac, C. Izac, F. Leccia, P. Mennrath, A. Vareille, C. Longuemare, F. Mauger, F. Danevich, V. Kouts, V.I. Tretyak, Yu. Vassilyev, Yu. Zdesenko, A.B. Barabash, V.N. Kornoukhov, Yu. B. Lepikhin, V.I. Umatov, I.A. Vanushin, C. Augier, D. Blum, J.E. Campagne, S. Jullian, D. Lalanne, F. Laplanche, F. Natchez, G. Pichenot, G. Szklarz, R. Arnold, J.L. Guyonnet, T. Lamhamdi, I. Linck, F. Piquemal, F. Scheibling, V. Brudanin, V. Egorov, O. Kochetov, A. Nozdrin, Ts. Vylov, Sh. Zaparov, H.W. Nicholson, C.S. Sutton, NEMO F. DiFilippo, V. Natarajan, M. Bradley, F. Palmer, D.E. Pritchard T. Faestermann, J. Friese, H. Geissel, R. Gernhauser, H. Gilg, F. Heine, J. Homolka, P. Kienle, H.-J. Korner, G. Munzenberg, J. Reinhold, R. Schneider, K. Summerer, K. Zeitelhack V.N. Fedoseyev, Y. Jading, O.C. Jonsson, R. Kirchner, K.-L. Kratz, M. Krieg, E. Kugler, J. Lettry, T. Mehren, V.I. Mishin, H.L. Ravn, T. Rauscher, H.L. Ravn, F. Scheerer, O. Tengblad, P. Van Duppen, A. Wohr, ISOLDE P.E. Garrrett, D.G. Burke A. Gadea, B. Rubio, J.L. Tain, J. Bea, L. Garcia-Raffi, J. Rico, L. Batist, V. Wittmann, A. Bykov, F. Moroz, H. Keller, R. Kirchner, E. Roeckl R. Georgii, T. von Egidy, J. Klora, H. Lindner, U. Mayerhofer, J. Ott, W. Schauer, P. von Neumann-Cosel, A. Richter, C. Schlegel, R. Schulz, V.A. Khitrov, A.M. Sukhovoj, A.V. Vojnov, J. Berzins, V. Bondarenko, P. Prokofjevs, L.J. Simonova, M. Grinberg, Ch. Stojanov A. Sh. Georgadze, F.A. Danevich, Yu. G. Zdesenko, V.V. Kobychev, B.N. Kropivyansky, V.N. Kuts, A.S. Nikolaiko, V.I. Tretyak and 02Tr04 A. Ghiorso, D. Lee, L.P. Somerville, W. Loveland, J.M. Nitschke, W. Ghiorso, G.T. Seaborg, P. Wilmarth, R. Leres, A. Wydler, M. Nurmia, K. Gregorich, R. Gaylord, T. Hamilton, N.J. Hannink, D.C. Hoffman, C. Jarzynski, C. Kacher, B. Kadkhodayan, S. Kreek, M. Lane, A. Lyon, M.A. McMahan, M. Neu, T. Sikkeland, W.J. Swiatecki, A. Türler, J.T. Walton, S. Yashita A. Guglielmetti, B. Blank, R. Bonetti, Z. Janas, H. Keller, R. Kirchner, O. Klepper, A. Piechaczek, A. Plochocki, G. Poli, P.B. Price, E. Roeckl, K. Schmidt, J. Szerypo, A.J. Westphal A. Guglielmetti, R. Bonetti, G. Poli, P.B. Price, A.J. Westphal, Z. Janas, H. Keller, R. Kirchner, O. Klepper, A. Piechaczek, E. Roeckl, K. Schmidt, A. Plochocki, J. Szerypo, B. Blank 648 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1995Ha.B P-Arles 487 1995Hi02 PRVCA 51, 1736 1995Hi12 PRVCA 52, 2236 1995Hi14 1995Ho03 JPGPE ZPAAD 21, 350, 639 277 1995Ho04 ZPAAD 350, 281 1995Ho.A GSI-Nachr. 1995Ho.B 1995Ho.C PrvCom P-Arles 1995Ik03 1995Ir01 Feb GAu Mar 571 JUPSA PRLTA 64, 75, 3244 4182 1995Jo02 NUPAB 584, 489 1995Jo.A 1995Ka.A P-Arles B-Arles 1995Ke04 NUPAB 586, 219 1995Ke05 ZPAAD 352, 1 1995Kr03 PRLTA 74, 860 1995Kr04 ZPAAD 351, 11 1995Kr.A 1995La08 ISOLDE-News NUPAB 586, 01 316 1995La09 NUPAB 588, 501 1995La20 PRLTA 75, 1903 1995Le04 PRVCA 51, 1047 1995Le15 APOBB 26, 309 499 PD22 J.H. Hamilton, Q.H. Lu, S.J. Zhu, K. Butler-Moore, A.V. Ramayya, B.R.S. Babu, L.K. Peker, W.C. Ma, T.N. Ginter, J. Kormicki, D. Shi, J.K. Deng, J.O. Rasmussen, M.A. Stoyer, S.Y. Chu, K.E. Gregorich, M.F. Mohar, S. Prussin, J.D. Cole, R. Aryaeinejad, N.R. Johnson, I.Y. Lee, F.K. McGowan, G.M. Ter-Akopian, Yu. Ts. Oganessian T. Hild, W.-D. Schmidt-Ott, V. Kunze, F. Meissner, C. Wennemann, H. Grawe T. Hild, W.-D. Schmidt-Ott, V. Kunze, F. Meissner, H. Salewski, K.S. Toth, R. Michaelsen K.-H. Hiddemann, H. Daniel, O. Schwentker S. Hofmann, V. Ninov, F.P. Heßberger, P. Armbruster, H. Folger, G. Münzenberg, H.J. Schött, A.G. Popeko, A.V. Yeremin, A.N. Andreyev, S. Saro, R. Janik, M. Leino S. Hofmann, V. Ninov, F.P. Heßberger, P. Armbruster, H. Folger, G. Münzenberg, H.J. Schött, A.G. Popeko, A.V. Yeremin, A.N. Andreyev, S. Saro, R. Janik, M. Leino S. Hofmann, V. Ninov, F.P. Heßberger, P. Armbruster, H. Folger, G. Münzenberg, H.J. Schött, A.G. Popeko, A.V. Yeremin, A.N. Andreyev, S. Saro, R. Janik, M. Leino S. Hofmann, V. Ninov, F.P. Heßberger, and GSI Annual report 1995 S. Hofmann, F.P. Heßberger, H. Folger, V. Ninov, A.N. Andreyev, D.D. Bogdanov, V.I. Chepigin, A.P. Kabachenko, O.N. Malyshev, A.G. Popeko, G.M. Ter-Akopian, A.V. Yeremin, S. Saro T. Ikuta, A. Taniguchi, H. Yamamoto, K. Kawade, Y. Kawase H. Irnich, H. Geissel, F. Nolden, K. Beckert, F. Bosch, H. Eickhoff, B. Franzke, Y. Fujita, M. Hausmann, H.C. Jung, O. Klepper, C. Kozhuharov, G. Kraus, A. Magel, G. Münzenberg, F. Nickel, T. Radon, H. Reich, B. Schlitt, W. Schwab, M. Steck, K. Sümmerer, T. Suzuki, H. Wollnik A. Jokinen, T. Enqvist, P.P. Jauho, M. Leino, J.M. Parmonen, H. Penttilä, J. Äystö, K. Eskola A. Jokinen, et al V.G. Kalinnikov, B.P. Osipenko, F. Pražak, A.A. Solnyshkin, V.I. Stegailov, P. Čaloun, S.E. Zaparov M. Keim, E. Arnold, W. Borchers, U. Georg, A. Klein, R. Neugart, L. Vermeeren, R.E. Silverans, P. Lievens H. Keller, R. Kirchner, B. Rubio, J.L. Tain, Th. Dörfler, W.-D. Schmidt-Ott, E. Roeckl R.A. Kryger, A. Azhari, M. Hellström, J.H. Kelley, T. Kubo, R. Pfaff, E. Ramakrishnan, B.M. Sherrill, M. Thoennessen, S. Yokoyama, R.J. Charity, J. Dempsey, A. Kirov, N. Robertson, D.G. Sarantites, L.G. Sobotka, J.A. Winger K. Krumbholz, W.-D. Schmidt-Ott, T. Hild, V. Kunze, F. Meissner, C. Wennemann, H. Keller, R. Kirchner, O. Klepper, E. Roeckl, D. Schardt, K. Rykaczewski K.-L. Kratz G.J. Lane, G.D. Dracoulis, A.P. Byrne, P.M. Walker, A.M. Baxter, J.A. Sheikh, W. Nazarewicz Yu. A. Lazarev, I.V. Shirokovsky, V.K. Utyonkov, S.P. Tretyakova, V.B. Kutner Yu. A. Lazarev, Yu. V. Lobanov, Yu. Ts. Oganessian, Yu. S. Tsyganov, V.K. Utyonkov, F. Sh. Abdullin, S. Iliev, A.N. Polyakov, J. Rigol, I.V. Shirokovsky, V.G. Subbotin, A.M. Sukhov, G.V. Buklanov, B.N. Gikal, V.B. Kutner, A.N. Mezentsev, I.M. Sedykh, D.V. Vakatov, R.W. Lougheed, J.F. Wild, K.J. Moody, E.K. Hulet M.J. Leddy, S.J. Freeman, J.L. Durell, A.G. Smith, S.J. Warburton, D.J. Blumenthal, C.N. Davids, C.J. Lister, H.T. Penttilä M. Leino, J. Äystö, T. Enqvist, A. Jokinen, M. Nurmia, A. Ostrowski, W.H. Trzaska, J. Uusitalo, K. Eskola, P. Armbruster, V. Ninov G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1995Le19 1995Le.A PRVCA P-Arles 51, 2770 505 1995Le.C P-Arles 1995Me03 PRVCA 51, 427 1558 1995Me16 PHSTB 1995Mo14 ZPAAD T56, 352, 272 7 1995Mo26 NUPAB 1995Ni05 ZPAAD 588, 351, 203c 125 1995Ni.A P-Arles 571 1995Ok02 1995Os03 ZPAAD NUPAB 351, 588, 243 185 1995Oz02 NUPAB 592, 244 1995Pa.A P-Arles 1995Pf01 NUPAB 581, 205 1995Pf04 1995Pi03 ZPAAD NUPAB 353, 584, 1 509 1995Po01 1995Re.A PRVCA P-Arles 51, 519 587 1995Ro09 ZPAAD 351, 127 1995Ry03 PRVCA 52, 2310 1995Sa42 NUPAB 592, 221 1995Sc03 NUPAB 582, 109 1995Sc28 NUPAB 588, 191c 1995Sc33 PHSTB 56, 67 1995So03 NUPAB 583, 763c 1995So11 PRVCA 52, 88 583 649 Y.S. Lee, M. Kobayashi, T. Hukotome, T. Horiguchi, H. Inoue M. Leino, T. Enqvist, W.H. Trzaska, J. Uusitalo, K. Eskola, P. Armbruster, V. Ninov, and PrvCom GAu June 1995 M. Lewitowicz F. Meissner, T. Hild, V. Kunze, W.-D. Schmidt-Ott, C. Wennemann, P.C. Sood, R. Kirchner, E. Roeckl, K. Rykaczewski K.A. Mezilev, Yu. N. Novikov, A.V. Popov, B. Fogelberg, L. Spanier K. Morita, Y.H. Pu, J. Feng, M.G. Hies, K.O. Lee, A. Yoshida, S.C. Jeong, S. Kubono, T. Nomura, Y. Tagaya, M. Wada, M. Kurokawa, T. Motobayashi, H. Ogawa, T. Uchibori, K. Sueki, T. Ishizuka, K. Uchiyama, Y. Fujita, H. Miyatake, T. Shimoda, T. Shinozuka, H. Kudo, Y. Nagai, S.A. Shin D.J. Morrissey, and the A1200 Group V. Ninov, F.P. Heßberger, S. Hofmann, H. Folger, A.V. Yeremin, A.G. Popeko, A.N. Andreyev, S. Saro V. Ninov, F.P. Heßberger, H. Folger, S. Hofmann, A.G. Popeko, A.V. Yeremin, A.N. Andreyev, S. Ŝaro, and Abstracts PD19 K. Okano, A. Taniguchi, S. Yamada, T. Sharshar, M. Shibata, K. Yamauchi A. Osa, M. Asai, M. Koizumi, T. Sekine, S. Ichikawa, Y. Kojima, H. Yamamoto, K. Kawade A. Ozawa, G. Raimann, R.N. Boyd, F.R. Chloupek, M. Fujimaki, K. Kimura, H. Kitagawa, T. Kobayashi, J.J. Kolata, S. Kubono, I. Tanihata, Y. Watanabe, K. Yoshida R.D. Page, P.J. Woods, R.A. Cunningham, T. Davinson, N.J. Davis, A.N. James, K. Livingston, P.J. Sellin, A.C. Shotter M. Pfützner, A. Plochocki, K. Rykaczewski, J. Szerypo, J. Żylicz, H. Keller, R. Kirchner, O. Klepper, E. Roeckl, D. Schardt, M. Huyse, G. Reusen, P. Van Duppen, B.A. Brown B. Pfeiffer, G. Lhersonneau, H. Gabelmann, K.-L. Kratz, ISOLDE A. Piechaczek, M.F. Mohar, R. Anne, V. Borrel, B.A. Brown, J.M. Corre, D. Guillemaud-Mueller, R. Hue, H. Keller, S. Kubono, V. Kunze, M. Lewitowicz, P. Magnus, A.C. Mueller, T. Nakamura, M. Pfützner, E. Roeckl, K. Rykaczewski, M.G. Saint-Laurent, W.-D. Schmidt-Ott, O. Sorlin K.R. Pohl, D.F. Winchell, J.W. Arrison, D.P. Balamuth P.L. Reeder, Y. Kim, W.K. Hensley, H.S. Miley, R.A. Warner, Z.Y. Zhou, D.J. Vieira, J.M. Wouters, H.L. Seifert, and PrvCom GAu June 1995 B. Roussière, F. Ibrahim, P. Kilcher, F. Le Blanc, J. Oms, J. Sauvage, A. Wojtasiewicz, ISOCELE K. Rykaczewski, R. Anne, G. Auger, D. Bazin, C. Borcea, V. Borrel, J.M. Corre, T. Dörfler, A. Fomichov, R. Grzywacz, D. Guillemaud-Mueller, R. Hue, M. Huyse, Z. Janas, H. Keller, M. Lewitowicz, S. Lukyanov, A.C. Mueller, Yu. Penionzhkevich, M. Pfützner, F. Pougheon, M.G. SaintLaurent, K. Schmidt, W.D. Schmidt-Ott, O. Sorlin, J. Szerypo, O. Tarasov, J. Wauters, J. Żylicz J. Sauvage, D. Hojman, F. Ibrahim, B. Roussière, P. Kilcher, F. Le Blanc, J. Oms, J. Libert, ISOCELE K. Scheller, J. Görres, S. Vouzoukas, M. Wiescher, B. Pfeiffer, K.-L. Kratz, D.J. Morrissey, B.M. Sherrill, M. Steiner, M. Hellström, J.A. Winger R. Schneider, T. Faestermann, J. Friese, R. Gernhauser, H. Geissel, H. Gilg, F. Heine, J. Homolka, P. Kienle, H.-J. Korner, G. Münzenberg, J. Reinhold, K. Sümmerer, K. Zeitelhack R. Schneider, T. Faestermann, J. Friese, R. Gernhauser, H. Gilg, F. Heine, J. Homolka, P. Kienle, H.-J. Korner, J. Reinhold, K. Zeitelhack, H. Geissel, G. Münzenberg, K. Sümmerer O. Sorlin, D. Guillemaud-Mueller, R. Anne, L. Axelsson, D. Bazin, W. Böhmer, V. Borrel, Y. Jading, H. Keller, K.-L. Kratz, M. Lewitowicz, S.M. Lukyanov, T. Mehren, A.C. Mueller, Yu. E. Penionzhkevich, F. Pougheon, M.G. Saint-Laurent, V.S. Salamatin, S. Shoedder, A. Wöhr P.C. Sood, A. Gizon, D.G. Burke, B. Singh, C.F. Liang, R.K. Sheline, M.J. Martin, R.W. Hoff 650 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1995So.A P-Arles 1995St26 1995Sy01 1995Sz01 PRLTA PRVCA NUPAB 75, 51, 584, 3237 2765 221 1995Ti08 PRVCA 52, 2298 1995Tr02 PYLBB 348, 331 1995Tr03 PYLBB 349, 267 1995Tr07 1995Uu01 ADNDA PRVCA 61, 52, 43 113 1995Va38 1995Ve08 PHSTB BRSPE T59, 59, 134 1851 1995Wa.A P-Arles 1995Wi20 PRVCA 52, 725 1028 586, 75, 483 1719 1995Zh10 1995Zi03 NUPAB PRLTA 603 O. Sorlin, Th. Dorfler, R. Anne, W. Bohmer, V. Borrel, D. GuillemaudMueller, S. Grevy, K.-L. Kratz, M. Lewitowicz, T. Mehren, A.C. Mueller, A. Ostrowsky, F. Pougheon, I. Rabout, Th. Rauscher, M. Robinson, M.G. Saint-Laurent, W.D. Schmidt-Ott W. Stoeffl, D.J. Decman I. Sykora, K. Janko, P.P. Povinec J. Szerypo, M. Huyse, G. Reusen, P. Van Duppen, Z. Janas, H. Keller, R. Kirchner, O. Klepper, A. Piechaczek, E. Roeckl, D. Schardt, K. Schmidt, R. Grzywacz, M. Pfützner, A. Plochocki, K. Rykaczewski, J. Żylicz, G.D. Alkhazov, L. Batist, A. Bykov, V. Wittmann, B.A. Brown R.J. Tighe, J.C. Batchelder, D.M. Moltz, T.J. Ognibene, M.W. Rowe, J. Cerny, B.A. Brown W. Trinder, E.G. Adelberger, B.A. Brown, Z. Janas, H. Keller, K. Krumbholz, V. Kunze, P. Magnus, F. Meissner, A. Piechaczek, M. Pfützner, E. Roeckl, K. Rykaczewski, W.-D. Schmidt-Ott, M. Weber W. Trinder, E.G. Adelberger, Z. Janas, H. Keller, K. Krumbholz, V. Kunze, P. Magnus, F. Meissner, A. Piechaczek, M. Pfützner, E. Roeckl, K. Rykaczewski, W.-D. Schmidt-Ott, M. Weber V.I. Tretyak, Yu. G. Zdesenko J. Uusitalo, T. Enqvist, M. Leino, W.H. Trzaska, K. Eskola, P. Armbruster, V. Ninov R.S. Van Dyck,Jr., D.L. Farnham, P.B. Schwinberg G.V. Veselov, V.A. Sergienko, A.V. Potempa, K. Ya. Gromov, V.G. Kalinnikov, N. Yu. Kotovsky, V.I. Fominykh, M.B. Yuldashev G. Walter F.E. Wietfeldt, E.B. Norman, Y.D. Chan, M.T.F. da Cruz, A. Garcı́a, E.E. Haller, W.L. Hansen, M.M. Hindi, R.-M. Larimer, K.T. Lesko, P.N. Luke, R.G. Stockstad, B. Sur, I. Žlimen K. Zhao, J.S. Lilley, P.V. Drumm, D.D. Warner, R.A. Cunningham, J.N. Mo M. Zinser, F. Humbert, T. Nilsson, W. Schwab, T. Blaich, M.J.G. Borge, L.V. Chulkov, H. Eickhoff, T.W. Elze, H. Emling, B. Franzke, H. Freiesleben, H. Geissel, K. Grimm, D. Guillemaud-Mueller, P.G. Hansen, R. Holzmann, H. Irnich, B. Jonson, J.G. Keller, O. Klepper, H. Klingler, J.V. Kratz, R. Kulessa, D. Lambrecht, Y. Leifels, A. Magel, M. Mohar, A.C. Mueller, G. Münzenberg, F. Nickel, G. Nyman, A. Richter, K. Riisager, C. Scheidenberger, G. Schrieder, B.M. Sherrill, H. Simon, K. Stelzer, J. Stroth, O. Tengblad, W. Trautmann, E. Wajda, E. Zude, preprint GSI-95-03 1996 1996Al30 PRLTA 77, 3319 1996An21 BRSPE 60, 119 1996Ax01 PRVCA 54, 1511 1996Ba24 1996Ba35 YAFIA PRVCA 59, 54, 197 949 1996Ba37 JPGPE 22, 487 1996Ba80 PRLTA 77, 5186 A. Alessandrello, C. Brofferio, D.V. Camin, P. Caspani, P. Colling, O. Cremonesi, E. Fiorini, A. Giuliani, A. Nucciotti, M. Pavan, G. Pessina, E. Previtali, L. Zanotti, C. Bucci A.N. Andreyev, A.G. Popeko, A.V. Eremin, S. Hofmann, F. Heßberger, H. Folger, V. Ninov, S. Saro L. Axelsson, M.J.G. Borge, S. Fayans, V.Z. Goldberg, S. Grévy, D. Guillemaud-Mueller, B. Jonson, K.-M. Källman, T. Lönnroth, M. Lewitowicz, P. Manngård, K. Markenroth, I. Martel, A.C. Mueller, I. Mukha, T. Nilsson, G. Nyman, N.A. Orr, K. Riisager, G.V. Rogatchev, M.-G. SaintLaurent, I.N. Serikov, O. Sorlin, O. Tengblad, F. Wenander, J.S. Winfield, R. Wolski A.S. Barabash, R.R. Saakyan and 02Tr04 J.C. Batchelder, K.S. Toth, E.F. Zganjar, D.M. Moltz, C.R. Bingham, T.J. Ognibene, J. Powell, M.W. Rowe A.S. Barabash, R. Gurriaran, F. Hubert, Ph. Hubert, J.L. Reyss, J. Suhonen, V.I. Umatov A. Balysh, A. De Silva, V.I. Lebedev, K. Lou, M.K. Moe, M.A. Nelson, A. Piepke, A. Pronsky, M.A. Vient, P. Vogel G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1996Bi07 PRVCA 54, R20 1996Bi17 ZPAAD 356, 3 1996Bl11 PRVCA 54, 572 1996Bl21 PRLTA 77, 2893 1996Ca02 1996Ch32 NUPAB PRLTA 598, 77, 61 2400 1996Da06 PRLTA 76, 592 1996De60 1996Do23 YAFIA PRVCA 59, 54, 2117 2894 1996Dr02 PRVCA 53, 1205 1996Dr07 1996Dr.A 1996En01 NUPAB PrvCom ZPAAD 601, JBl 354, 234 Sep 1 1996En02 ZPAAD 354, 9 1996Fa01 PRVCA 53, 647 1996Fa09 NUPAB 602, 167 1996Ga17 PRVCA 54, 1057 1996Ga24 ZPAAD 355, 253 1996Ga30 NUPAB 611, 68 1996Ge07 ZPAAD 356, 7 1996Ge12 NUPAB 611, 247 1996Gi08 NUPAB 605, 301 651 C.R. Bingham, K.S. Toth, J.C. Batchelder, D.J. Blumenthal, L.T. Brown, B.C. Busse, L.F. Conticchio, C.N. Davids, T. Davinson, D.J. Henderson, R.J. Irvine, D. Seweryniak, W.B. Walters, P.J. Woods, B.E. Zimmerman N. Bijnens, I. Ahmad, A.N. Andreyev, J.C. Batchelder, C.R. Bingham, D. Blumenthal, B.C. Busse, X.S. Chen, L.F. Conticchio, C.N. Davids, M. Huyse, R.V.F. Janssens, P. Mantica, H. Penttilä, W. Reviol, D. Seweryniak, P. Van Duppen, W.B. Walters, J. Wauters, B.E. Zimmerman B. Blank, S. Andriamonje, F. Boué, S. Czajkowski, R. Del Moral, J.P. Dufour, A. Fleury, P. Pourre, M.S. Pravikoff, K.-H. Schmidt, E. Hanelt, N.A. Orr B. Blank, S. Czajkowski, F. Davi, R. Del Moral, J.P. Dufour, A. Fleury, C. Marchand, M.S. Pravikoff, J. Benlliure, F. Boue, R. Collatz, A. Heinz, M. Hellström, Z. Hu, E. Roeckl, M. Shibata, K. Sümmerer, Z. Janas, M. Karny, M. Pfützner, M. Lewitowicz P. Campbell, J.A. Behr, J. Billowes, G. Gwinner, G.D. Sprouse, F. Xu M. Chartier, G. Auger, W. Mittig, A. Lepine-Szilly, L.K. Fifield, J.M. Casandjian, M. Chabert, J. Ferme, A. Gillibert, M. Lewitowicz, M. Mac Cormick, M.H. Moscatello, O.H. Odland, N.A. Orr, G. Politi, C. Spitaels, A.C.C. Villari C.N. Davids, P.J. Woods, H.T. Penttilä, J.C. Batchelder, C.R. Bingham, D.J. Blumenthal, L.T. Brown, B.C. Busse, L.F. Conticchio, T. Davinson, D.J. Henderson, R.J. Irvine, D. Seweryniak, K.S. Toth, W.B. Walters, B.E. Zimmerman A.V. Derbin, A.I. Egorov, V.N. Muratova, S.V. Baklanov and 02Tr04 T. Dörfler, W.-D. Schmidt-Ott, T. Hild, T. Mehren, W. Böhmer, P. Möller, B. Pfeiffer, T. Rauscher, K.-L. Kratz, O. Sorlin, V. Borrel, S. Grévy, D. Guillemaud-Mueller, A.C. Mueller, F. Pougheon, R. Anne, M. Lewitowicz, A. Ostrowsky, M. Robinson, M.G. Saint-Laurent G.D. Dracoulis, F.G. Kondev, A.P. Byrne, T. Kibedi, S. Bayer, P.M. Davidson, P.G.D. Dracoulis, F.G. Kondev, A.P. Byrne, T. Kibedi, S. Bayer, P.M. Davidson, P.M. Walker, C. Purry, C.J. PearsonM. Walker, C. Purry, C.J. Pearson S. Drissi, S. Andre, D. Barnéoud, C. Foin, J. Genevey, J. Kern S. Drissi T. Enqvist, K. Eskola, A. Jokinen, M. Leino, W.H. Trzaska, J. Uusitalo, V. Ninov, P. Armbruster T. Enqvist, P. Armbruster, K. Eskola, M. Leino, V. Ninov, W.H. Trzaska, J. Uusitalo M. Fauerbach, D.J. Morrissey, W. Benenson, B.A. Brown, M. Hellström, J.H. Kelley, R.A. Kryger, R. Pfaff, C.F. Powell, B.M. Sherrill L. Faux, S. Andriamonje, B. Blank, S. Czajkowski, R. Del Moral, J.P. Dufour, A. Fleury, T. Josso, M.S. Pravikoff, A. Piechaczek, E. Roeckl, K.H. Schmidt, K. Sümmerer, W. Trinder, M. Weber, T. Brohm, A. Grewe, E. Hanelt, A. Heinz, A. Junghans, C. Rohl, S. Steinhauser, B. Voss, Z. Janas, M. Pfützner A. Galindo-Uribarri, D. Ward, H.R. Andrews, G.C. Ball, D.C. Radford, V.P. Janzen, S.M. Mullins, J.C. Waddington, A.V. Afanasjev, I. Ragnarsson A. Gadea, B. Rubio, J.L. Tain, J. Rico, J. Bea, L.M. Garcia-Raffi, P. Kleinheinz, D. Schardt, E. Roeckl, R. Kirchner, J. Blomqvist P.E. Garrett, N. Warr, H. Baltzer, S. Boehmsdorff, D.G. Burke, M. Deleze, S. Drissi, J. Groger, C. Gunther, J. Kern, S.J. Mannanal, J. Manns, U. Muller, J.-P. Vorlet, T. Weber J. Genevey, A. Gizon, D. Barnéoud, Gh. Cata-Danil, R. Béraud, A. Emsallem, C. Foin, C.F. Liang, P. Paris, S. Viteritti J. Genevey, A. Gizon, C. Foin, D. Bucurescu, Gh. Cata-Danil, B. Weiss, D. Barnéoud, T. von Egidy, J. Gizon, C.F. Liang, P. Paris A. Gizon, J. Genevey, D. Bucurescu, Gh. Cata-Danil, J. Gizon, J. Inchaouh, D. Barnéoud, T. von Egidy, C.F. Liang, B.M. Nyako, P. Paris, I. Penev, A. Plochocki, E. Ruchowska, C.A. Ur, B. Weiss, L. Zolnai 652 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1996Go06 JPGPE 22, 377 1996He25 ZPAAD 356, 229 1996Ho12 PRVCA 54, 78 1996Ho13 ZPAAD 354, 229 1996Ho16 PRLTA 77, 1020 1996Ik01 PRVCA 54, 2043 1996Jo06 1996Ko13 1996La11 PRVCA PRVCA PRVCA 53, 54, 53, 3150 R459 2893 1996La12 PRVCA 54, 620 1996Le09 ZPAAD 355, 157 1996Lh04 PRVCA 54, 1592 1996Li05 ZPAAD 354, 153 1996Li37 1996Li50 PRVCA ZPAAD 54, 356, 2304 239 1996Ma72 RAACA 72, 39 1996Me09 PRLTA 77, 458 1996Mu19 PYLBB 367, 65 1996Ni09 ZPAAD 356, 11 1996Od01 ZPAAD 354, 231 1996Os04 JUPSA 65, 928 V.M. Gorozhankin, V.G. Kalinnikov, A. Kovalik, A.A. Solnyshkin, A.F. Novgorodov, N.A. Lebedev, N. Yu. Kotovskij, E.A. Yakushev, M.A. Mahmoud, M. Rysavy M. Hellström, Z. Hu, A. Weber, M. Hencheck, M.J. Balbes, R.N. Boyd, D. Cano-Ott, R. Collatz, A. Guglielmetti, Z. Janas, M. Karny, R. Kirchner, J. Morford, D.J. Morrissey, G. Raimann, E. Roeckl, K. Schmidt, J. Szerypo R.W. Hoff, H.G. Borner, K. Schreckenbach, G.G. Colvin, F. Hoyler, W. Schauer, T. von Egidy, R. Georgii, J. Ott, S. Schrunder, R.F. Casten, R.L. Gill, M. Balodis, P. Prokofjevs, L. Simonova, J. Kern, V.A. Khitrov, A.M. Sukhovoj, O. Bersillon, S. Joly, G. Graw, D. Hofer, B. Valnion S. Hofmann, V. Ninov, F.P. Heßberger, P. Armbruster, H. Folger, G. Münzenberg, H.J. Schött, A.G. Popeko, A.V. Yeremin, S. Saro, R. Janik, M. Leino P. Hoff, P. Baumann, A. Huck, A. Knipper, G. Walter, G. Marguier, B. Fogelberg, A. Lindroth, H. Mach, M. Sanchez-Vega, R.B.E. Taylor, P. Van Duppen, A. Jokinen, M. Lindroos, M. Ramdane, W. Kurcewicz, B. Jonson, G. Nyman, Y. Jading, K.-L. Kratz, A. Wohr, G. Løvhøiden, T.F. Thorsteinsen, J. Blomqvist, ISOLDE H. Ikezoe, T. Ikuta, S. Hamada, Y. Nagame, I. Nishinaka, K. Tsukada, Y. Oura, T. Ohtsuki I.P. Johnstone, L.D. Skouras F.G. Kondev, G.D. Dracoulis, A.P. Byrne, T. Kibedi, S. Bayer, G.J. Lane M.R. Lane, K.E. Gregorich, D.M. Lee, M.F. Mohar, M. Hsu, C.D. Kacher, B. Kadkhodayan, M.P. Neu, N.J. Stoyer, E.R. Sylwester, J.C. Yang, D.C. Hoffman Yu. A. Lazarev, Yu. V. Lobanov, Yu. Ts. Oganessian, V.K. Utyonkov, F. Sh. Abdullin, A.N. Polyakov, J. Rigol, I.V. Shirokovsky, Yu. S. Tsyganov, S. Iliev, V.G. Subbotin, A.M. Sukhov, G.V. Buklanov, B.N. Gikal, V.B. Kutner, A.N. Mezentsev, K. Subotic, J.F. Wild, R.W. Lougheed, K.J. Moody M. Leino, J. Uusitalo, R.G. Allatt, P. Armbruster, T. Enqvist, K. Eskola, S. Hofmann, S. Hurskanen, A. Jokinen, V. Ninov, R.D. Page, W.H. Trzaska G. Lhersonneau, P. Dendooven, A. Honkanen, M. Huhta, M. Oinonen, H. Penttilä, J. Äystö, J. Kurpeta, J.R. Persson, A. Popov C.F. Liang, P. Paris, A. Plochocki, E. Ruchowska, A. Gizon, D. Barnéoud, J. Genevey, G. Cata, R.K. Sheline C.F. Liang, P. Paris, R.K. Sheline, P. Alexa, A. Gizon M. Lipoglavšek, M. Górska, J. Nyberg, A. Atac, A. Axelsson, R.A. Bark, J. Blomqvist, J. Cederkäll, B. Cederwall, G. de Angelis, C. Fahlander, H. Grawe, A. Johnson, S. Leoni, A. Likar, M. Matiuzzi, S. Mitarai, L.O. Norlin, M. Palacz, J. Persson, H.A. Roth, R. Schubart, D. Seweryniak, T. Shizuma, Ö. Skeppstedt, D. Sohler, G. Sletten, W.B. Walters, M. Weiszflog M. Magara, N. Shinohara, Y. Hatsukawa, K. Tsukada, H. Imura, S. Utsuda, S.-I. Ichikawa, T. Suzuki, Y. Nagame, Y. Kobayashi, M. Oshima, T. Horichuchi T. Mehren, B. Pfeiffer, S. Schoedder, K.-L. Kratz, M. Huhta, P. Dendooven, A. Honkanen, G. Lhersonneau, M. Oinonen, J.-M. Parmonen, H. Penttilä, A. Popov, V. Rubchenya, J. Äystö I. Mukha, M.J.G. Borge, D. Guillemaud-Mueller, P. Hornshøj, F. Humbert, B. Jonson, T.E. Leth, G. Martinez Pinedo, T. Nilsson, G. Nyman, K. Riisager, G. Schrieder, M.H. Smedberg, O. Tengblad, K. Wilhelmsen Rolander, ISOLDE V. Ninov, F.P. Heßberger, S. Hofmann, H. Folger, G. Münzenberg, P. Armbruster, A.V. Yeremin, A.G. Popeko, M. Leino, S. Saro A. Odahara, Y. Gono, S. Mitarai, T. Shizuma, E. Ideguchi, J. Mukai, H. Tomura, B.J. Min, S. Suematsu, T. Kuroyanagi, K. Heiguchi, T. Komatsubara, K. Furuno A. Osa, T. Ikuta, K. Kawade, H. Yamamoto, S. Ichikawa G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1996Pa01 PRVCA 53, 660 1996Pf01 PRVCA 53, 1753 1996Ra04 PRVCA 53, 616 1996Ra16 1996Ri12 PRVCA PRVCA 53, 54, 2732 2041 1996Ro02 PRVCA 53, 1465 1996Ry.B 1996Sa34 AnRpt JYFL PRVCA 54, 33 2802 1996Sh27 JUPSA 65, 3172 1996Ta04 1996Ta18 PRVCA PRVCA 53, 54, 1557 2926 1996To01 PRVCA 53, 2513 1996To08 1996Ur02 ZPAAD PRVCA 355, 54, 225 945 1996Wa33 PRVCA 54, 2916 1996Wi.A AnRpt LBL 1996Wo.A P-Amsterdam 69 D14 1996Zh03 353 ZPAAD 353, 653 R.D. Page, P.J. Woods, R.A. Cunningham, T. Davinson, N.J. Davis, A.N. James, K. Livingston, P.J. Sellin, A.C. Shotter, and PrvCom AHW August 1996 R. Pfaff, D.J. Morrissey, W. Benenson, M. Fauerbach, M. Hellström, C.F. Powell, B.M. Sherrill, M. Steiner, J.A. Winger S. Raman, E.K. Warburton, J.W. Starner, E.T. Jurney, J.E. Lynn, P. Tikkanen, J. Keinonen S. Raman, J.B. McGrory E.T. Jurney, J.W. Starner J.D. Richards, C.R. Bingham, Y.A. Akovali, J.A. Becker, E.A. Henry, P. Joshi, J. Kormicki, P.F. Mantica, K.S. Toth, J. Wauters, E.F. Zganjar M. Robinson, P. Halse, W. Trinder, R. Anne, C. Borcea, M. Lewitowicz, S. Lukyanov, M. Mirea, Yu. Oganessian, N.A. Orr, Yu. Penionzhkevich, M.G. Saint-Laurent, O. Tarasov K. Rykaczewski H. Sakurai, N. Aoi, A. Goto, M. Hirai, N. Inabe, M. Ishihara, H. Kobinata, T. Kubo, H. Kumagai, T. Nakagawa, T. Nakamura, M. Notani, Y. Watanabe, Y. Watanabe, A. Yoshida M. Shibata, A. Odahara, S. Mitarai, Y. Gono, M. Kidera, K. Miyazaki, T. Kuroyanagi N. Takaoka, Y. Motomura, K. Nagao R.B.E. Taylor, S.J. Freeman, J.L. Durell, M.J. Leddy, A.G. Smith, D.J. Blumenthal, M.P. Carpenter, C.N. Davids, C.J. Lister, R.V.F. Janssens, D. Seweryniak K.S. Toth, J.C. Batchelder, C.R. Bingham, L.F. Conticchio, W.B. Walters, C.N. Davids, D.J. Henderson, R. Herman, H. Penttilä, J.D. Richards, A.H. Wuosmaa, B.E. Zimmerman K.S. Toth, J.C. Batchelder, D.M. Moltz, J.D. Robertson W. Urban, W.R. Phillips, J.L. Durell, M.A. Jones, M. Leddy, C.J. Pearson, A.G. Smith, B.J. Varley, I. Ahmad, L.R. Morss, M. Bentaleb, E. Lubkiewicz, N. Schulz P.M. Wallace, E.G. Bilpuch, C.R. Bybee, G.E. Mitchell, E.F. Moore, J.D. Shriner, J.F. Shriner,Jr., G.A. Vavrina, C.R. Westerfeldt P.A. Wilk, et al A. Wöhr, V. Fedoseyev, Y. Jading, A. Jokinen, T. Kautzsch, I. Klöckl, K.L. Kratz, V.I. Mishin, H.-L. Ravn, P. Van Duppen, W.B. Walters, ISOLDE X. Zhang, S. Yuan, W. Yang, Z. Li, W. Mou, X. Yu, J. Zhong 1997 1997Al02 PRVCA 55, 474 1997An09 ZPAAD 358, 63 1997As05 PRVCA 56, 3045 1997Ba21 ZPAAD 357, 121 1997Ba25 PRVCA 55, 2142 1997Ba35 1997Be70 ZPAAD PYLBB 357, 415, 351 111 1997Bl03 NUPAB 615, 52 M. Alston-Garnjost, B.L. Dougherty, R.W. Kenney, R.D. Tripp, J.M. Krivicich, H.W. Nicholson, C.S. Sutton, B.D. Dieterle, S.D. Foltz, C.P. Leavitt, R.A. Reeder, J.D. Baker, A.J. Caffrey A.N. Andreyev, N. Bijnens, T. Enqvist, M. Huyse, P. Kuusiniemi, M. Leino, W.H. Trzaska, J. Uusitalo, P. Van Duppen M. Asai, T. Sekine, A. Osa, M. Koizumi, Y. Kojima, M. Shibata, H. Yamamoto, K. Kawade J.C. Batchelder, K.S. Toth, C.R. Bingham, L.T. Brown, L.F. Conticchio, C.N. Davids, T. Davinson, D.J. Henderson, R.J. Irvine, D. Seweryniak, W.B. Walters, P.J. Woods, J. Wauters, E.F. Zganjar J.C. Batchelder, K.S. Toth, C.R. Bingham, L.T. Brown, L.F. Conticchio, C.N. Davids, D. Seweryniak, J. Wauters, J.L. Wood, E.F. Zganjar A.S. Barabash, R. Gurriaran, F. Hubert, Ph. Hubert, V.I. Umatov M. Bernas, C. Engelmann, P. Armbruster, S. Czajkowski, F. Ameil, C. Bockstiegel, Ph. Dessagne, C. Donzaud, H. Geissel, A. Heinz, Z. Janas, C. Kozhuharov, Ch. Miehé, G. Münzenberg, M. Pfützner, W. Schwab, C. Stephan, K. Sümmerer, L. Tassan-Got, B. Voss B. Blank, F. Boué, S. Andriamonje, S. Czajkowski, R. Del Moral, J.P. Dufour, A. Fleury, P. Pourre, M.S. Pravikoff, N.A. Orr, K.-H. Schmidt, E. Hanelt 654 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1997Bl04 ZPAAD 357, 247 1997Bo10 NUPAB 616, 254c 1997Bu03 NUPAB 612, 91 1997Ch53 BRSPE 61, 1606 1997Da07 PRVCA 55, 2255 1997De40 1997Fo01 PRVCA PRVCA 56, 55, 2451 762 1997Ge11 1997Ge15 NIMBE BRSPE 126, 61, 351 1719 1997Gi07 ZPAAD 358, 369 1997Go18 PRLTA 79, 2415 1997Gr02 PRVCA 55, 1126 1997Gu13 PRVDA 55, 54 1997Gu32 1997Ha04 YTHLD NUPAB 19, 613, 180 183 1997He29 ZPAAD 359, 415 1997Ho14 ZPAAD 358, 377 1997Hu07 PRVCA 56, 1152 1997Hu15 ZPAAD 359, 349 1997Ir01 PRVCA 55, 1621 1997Ir02 1997Ja12 PRLTA NUPAB 79, 627, 990 119 B. Blank, F. Boué, S. Andriamonje, S. Czajkowski, R. Del Moral, J.P. Dufour, A. Fleury, P. Pourre, M.S. Pravikoff, E. Hanelt, N.A. Orr, K.H. Schmidt H.G. Bohlen, W. von Oertzen, Th. Stolla, R. Kalpakchieva, B. Gebauer, M. Wilpert, Th. Wilpert, A.N. Ostrowski, S.M. Grimes, T.N. Massey D.G. Burke, W. Kurcewicz, G. Løvhøiden, M.J.G. Borge, M. Cronqvist, H. Gabelmann, H. Gietz, P. Hill, N. Kaffrell, S. Mattsson, R.A. Naumann, K. Nybø, G. Nyman, J. Rogowski, G.L. Struble, T.F. Thorsteinsen, ISOLDE V.G. Chumin, J.K. Jabber, K.V. Kalyapkin, S.A. Kudrya, V.V. TsupkoSitnikov, K. Ya. Gromov, V.I. Fominykh, T.A. Furyaev C.N. Davids, P.J. Woods, J.C. Batchelder, C.R. Bingham, D.J. Blumenthal, L.T. Brown, B.C. Busse, L.F. Conticchio, T. Davinson, S.J. Freeman, D.J. Henderson, R.J. Irvine, R.D. Page, H.T. Penttilä, D. Seweryniak, K.S. Toth, W.B. Walters, B.E. Zimmerman A. De Silva, M.K. Moe, M.A. Nelson, M.A. Vient B. Fornal, R. Broda, W. Królas, T. Paw lat, J. Wrzesiński, D. Bazzacco, D. Fabris, S. Lunardi, C. Rossi Alvarez, G. Viesti, G. de Angelis, M. Cinausero, D.R. Napoli, Z.W. Grabowski H. Geissel, G. Bollen, B. Franzke, G. Münzenberg, Z. Patyk A. Sh. Georgadze, F.A. Danevich, Yu. G. Zdesenko, V.V. Kobychev, B.N. Kropivyansky, V.N. Kuts, V.V. Muzalevsky, A.S. Nikolaiko, O.A. Ponkratenko, V.I. Tretiak A. Gizon, J. Genevey, Gh. Cata-Danil, D. Barnéoud, R. Béraud, A. Emsallem, C. Foin, J. Gizon, C.F. Liang, P. Paris, I. Penev, A. Plochocki, B. Weiss M. Górska, M. Lipoglavšek, H. Grawe, J. Nyberg, A. Atac, A. Axelsson, R. Bark, J. Blomqvist, J. Cederkäll, B. Cederwall, G. de Angelis, C. Fahlander, A. Johnson, S. Leoni, A. Likar, M. Matiuzzi, S. Mitarai, L.O. Norlin, M. Palacz, J. Persson, H.A. Roth, R. Schubart, D. Seweryniak, T. Shizuma, Ö. Skeppstedt, G. Sletten, W.B. Walters, M. Weiszflog R. Grzywacz, R. Anne, G. Auger, C. Borcea, J.M. Corre, T. Dorfler, A. Fomichov, S. Grevy, H. Grawe, D. Guillemaud-Mueller, M. Huyse, Z. Janas, H. Keller, M. Lewitowicz, S. Lukyanov, A.C. Mueller, N. Orr, A. Ostrowski, Yu. Penionzhkevich, A. Piechaczek, F. Pougheon, K. Rykaczewski, M.G. Saint-Laurent, W.D. Schmidt-Ott, O. Sorlin, J. Szerypo, O. Tarasov, J. Wauters, J. Żylicz M. Günther, J. Hellmig, G. Heusser, M. Hirsch, H.V. KlapdorKleingrothaus, B. Maier, H. Päs, F. Petry, Y. Ramachers, H. Strecker, M. Völlinger, A. Balysh, S.T. Belyaev, A. Demehin, A. Gurov, I. Kondratenko, D. Kotelnikov, V.I. Lebedev, A. Müller J. Guo, K. Zhao, X. Lu, Y. Cheng, T. Li, C. Fu, S. Li E. Hagberg, I.S. Towner, J.C. Hardy, V.T. Koslowsky, G. Savard, S. Sterbenz F.P. Heßberger, S. Hofmann, V. Ninov, P. Armbruster, H. Folger, G. Münzenberg, H.J. Schött, A.G. Popeko, A.V. Yeremin, A.N. Andreyev, S. Saro S. Hofmann, F.P. Heßberger, V. Ninov, P. Armbruster, G. Münzenberg, C. Stodel, A.G. Popeko, A.V. Yeremin, S. Saro, M. Leino W.X. Huang, R.C. Ma, X.J. Xu, S.W. Xu, Y.X. Xie, Z.K. Li, Y.X. Ge, Y.Y. Wang, C.F. Wang, T.M. Zhang, X.F. Sun, G.M. Jin, Y.X. Luo W.X. Huang, R.C. Ma, X.J. Xu, S.W. Xu, Y.X. Xie, Z.K. Li, Y.X. Ge, Y.Y. Wang, C.F. Wang, T.M. Zhang, X.F. Sun, G.M. Jin, Y.X. Luo R.J. Irvine, C.N. Davids, P.J. Woods, D.J. Blumenthal, L.T. Brown, L.F. Conticchio, T. Davinson, D.J. Henderson, J.A. Mackenzie, H.T. Penttilä, D. Seweryniak, W.B. Walters G.M. Irwin, K.H. Kim Z. Janas, A. Plochocki, J. Szerypo, R. Collatz, Z. Hu, H. Keller, R. Kirchner, O. Klepper, E. Roeckl, K. Schmidt, R. Bonetti, A. Guglielmetti, G. Poli, A. Piechaczek G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1997Ju02 1997Ka07 PRVCA ZPAAD 56, 356, 118 363 1997Ku20 NUPAB 621, 827 1997La13 PRVCA 55, 2127 1997Li23 1997Lo.A 1997Mi03 PRVCA PrvCom PRVCA 55, GAu 55, 2768 May 1555 1997Mo35 NUPAB 627, 222 1997Mu08 PRVCA 55, 2267 1997Oi01 PRVCA 56, 745 1997Pu01 ZPAAD 357, 3 1997Ro26 1997Sa14 IEIMA NUPAB 46, 616, 560 311c 1997Sc30 NUPAB 624, 185 1997Sh09 1997Sh37 PRVCA ZPAAD 55, 359, 1162 229 1997So07 PRVCA 55, 2146 1997Su06 NUPAB 616, 341c 1997Sz04 ZPAAD 359, 117 1997Ta22 PYLBB 409, 64 1997Uu01 ZPAAD 358, 375 655 E.T. Jurney, J.W. Starner, J.E. Lynn, S. Raman D. Kast, A. Jungclaus, A. Harder, K.P. Lieb, D. Rudolph, R. Schubart, H. Grawe, D. Foltescu, H.A. Roth, O. Skeppstedt, I. Bearden, T. Shizuma W. Kurcewicz, I.S. Grant, K. Gulda, A.J. Aas, J. Billowes, M.J.G. Borge, D.G. Burke, P.A. Butler, J.F.C. Cocks, B. Fogelberg, S.J. Freeman, G.D. Jones, E. Hagebø, P. Hoff, J. Hønsi, A. Lindroth, G. Løvhøiden, H. Mach, T. Martinez, R.A. Naumann, K. Nybø, G. Nyman, H. Ravn, B. Rubio, J. Simpson, A.G. Smith, J.F. Smith, K. Steffensen, J.L. Tain, O. Tengblad, T.F. Thorsteinsen, ISOLDE G.J. Lane, D.B. Fossan, I. Thorslund, P. Vaska, R.G. Allatt, E.S. Paul, L. Kaubler, H. Schnare, I.M. Hibbert, N. O’Brien, R. Wadsworth, W. Andrejtscheff, J. deGraaf, J. Simpson, I.Y. Lee, A.O. Macchiavelli, D.J. Blumenthal, C.N. Davids, C.J. Lister, D. Seweryniak, A.V. Afanasjev, I. Ragnarsson C.F. Liang, P. Paris, R.K. Sheline R.W. Lougheed S. Mitsuoka, H. Ikezoe, T. Ikuta, Y. Nagame, K. Tsukada, I. Nishinaka, Y. Oura, Y.L. Zhao D.J. Morrissey, K.N. McDonald, D. Bazin, B.A. Brown, R. Harkewicz, N.A. Orr, B.M. Sherrill, G.A. Souliotis, M. Steiner, J.A. Winger, S.J. Yennello, B.M. Young, S. Lukyanov, G. Chubarian, Yu. Ts. Oganessian U. Müller, P. Sevenich, K. Freitag, C. Günther, P. Herzog, G.D. Jones, C. Kliem, J. Manns, T. Weber, B. Will, ISOLDE M. Oinonen, A. Jokinen, J. Äystö, P. Baumann, F. Didierjean, A. Honkanen, A. Huck, M. Huyse, A. Knipper, G. Marguier, Yu. Novikov, A. Popov, M. Ramdhane, D.M. Seliverstov, P. Van Duppen, G. Walter, ISOLDE Y.H. Pu, K. Morita, M.G. Hies, K.O. Lee, A. Yoshida, T. Nomura, Y. Tagaya, T. Motobayashi, M. Kurokawa, H. Minemura, T. Uchibori, T. Ariga, K. Sueki, S.A. Shin S. Röttger, A. Paul, U. Keyser H. Sakurai, N. Aoi, D. Beaumel, N. Fukuda, M. Hirai, E. Ideguchi, M. Ishihara, H. Iwasaki, T. Kishida, T. Kubo, H. Kumagai, S.M. Lukyanov, T. Nakamura, M. Notani, Yu. Ts. Oganessian, Yu. E. Penionzhkevich, T. Teranishi, Y. Watanabe, Y. Watanabe, K. Yoneda, A. Yoshida K. Schmidt, P.C. Divari, Th. W. Elze, R. Grzywacz, Z. Janas, I.P. Johnstone, M. Karny, H. Keller, R. Kirchner, O. Klepper, A. Plochocki, E. Roeckl, K. Rykaczewski, L.D. Skouras, J. Szerypo, J. Żylicz R.K. Sheline, C.F. Liang, P. Paris, A. Gizon T. Shizuma, G. Sletten, R.A. Bark, N.L. Gjorup, H.J. Jensen, S. Mitarai, M. Piiparinen, J. Wrzesinski G.A. Souliotis, W. Loveland, K.E. Zyromski, G.J. Wozniak, D.J. Morrissey, J.O. Liljenzin, K. Aleklett K. Sümmerer, R. Schneider, T. Faestermann, J. Friese, H. Geissel, R. Gernhauser, H. Gilg, F. Heine, J. Homolka, P. Kienle, H.-J. Korner, G. Münzenberg, J. Reinhold, K. Zeitelhack J. Szerypo, R. Grzywacz, Z. Janas, M. Karny, M. Pfützner, A. Plochocki, K. Rykaczewski, J. Żylicz, M. Huyse, G. Reusen, J. Schwarzenberg, P. Van Duppen, A. Woehr, H. Keller, R. Kirchner, O. Klepper, A. Piechaczek, E. Roeckl, K. Schmidt, L. Batist, A. Bykov, V. Wittman, B.A. Brown O. Tarasov, R. Allatt, J.C. Angélique, R. Anne, C. Borcea, Z. Dlouhy, C. Donzaud, S. Grevy, D. Guillemaud-Mueller, M. Lewitowicz, S. Lukyanov, A.C. Mueller, F. Nowacki, Yu. Oganessian, N.A. Orr, A.N. Ostrowski, R.D. Page, Yu. Penionzhkevich, F. Pougheon, A. Reed, M.G. Saint-Laurent, W. Schwab, E. Sokol, O. Sorlin, W. Trinder, J.S. Winfield J. Uusitalo, M. Leino, R.G. Allatt, T. Enqvist, K. Eskola, P.T. Greenlees, S. Hurskanen, A. Keenan, H. Kettunen, P. Kuusiniemi, R.D. Page, W.H. Trzaska 656 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1997Wa04 ZPAAD 357, 39 1997Wa05 PRVCA 55, 1192 1997Wo06 NUPAB 621, 289c 1997Ya03 1997Za07 ZPAAD PRLTA 357, 79, 353 4306 1997Zi04 NUPAB 619, 151 1997Zi06 JPGPE 23, 1707 J. Wawryszczuk, M.B. Yuldashev, K. Ya. Gromov, V.I. Fominykh, Zh. Sereeter, V.G. Kalinnikov, N. Yu. Kotovsky, K.V. Kalyapkin, A.W. Potempa, I.N. Izosimov, M. Yu. Myakushin, A.A. Rimsky-Korsakov, T.M. Muminov J. Wauters, J.C. Batchelder, C.R. Bingham, D.J. Blumenthal, L.T. Brown, L.F. Conticchio, C.N. Davids, T. Davinson, R.J. Irvine, D. Seweryniak, K.S. Toth, W.B. Walters, P.J. Woods, E.F. Zganjar A. Wohr, A. Andreev, N. Bijnens, J. Breitenbach, S. Franchoo, M. Huyse, Y.A. Kudryavtsev, A. Piechaczek, R.R. Raabe, G. Reusen, L. Vermeeren, P. Van Duppen W.F. Yang, Z.Z. Zhao, Z.W. Li, W.T. Mou K. Zaerpoor, Y.D. Chan, D.E. DiGregorio, M.R. Dragowsky, M.M. Hindi, M.C.P. Isaac, K.S. Krane, R.M. Larimer, A.O. Macchiavelli, R.W. Macleod, P. Mincinovic, E.B. Norman M. Zinser, F. Humbert, T. Nilsson, W. Schwab, H. Simon, T. Aumann, M.J.G. Borge, L.V. Chulkov, J. Cub, Th. W. Elze, H. Emling, H. Geissel, D. Guillemaud-Mueller, P.G. Hansen, R. Holzmann, H. Irnich, B. Jonson, J.V. Kratz, R. Kulessa, Y. Leifels, H. Lenske, A. Magel, A.C. Mueller, G. Münzenberg, F. Nickel, G. Nyman, A. Richter, K. Riisager, C. Scheidenberger, G. Schrieder, K. Stelzer, J. Stroth, A. Surowiec, O. Tengblad, E. Wajda, E. Zude B.E. Zimmerman, M.P. Unterweger, J.T. Cessna 1998 1998Al27 PYLBB 437, 29 1998Am04 EPJAA 1, 275 1998Ar10 NUPAB 636, 209 1998Ax02 NUPAB 634, 475 1998Az01 PRVCA 57, 628 1998Ba13 PRVCA 57, 1042 1998Ba83 1998Ba85 PRVCA NUPAB 58, 641, 2571 133 1998Ba.A P-Bellaire 90 R.G. Allatt, R.D. Page, M. Leino, T. Enqvist, K. Eskola, P.T. Greenlees, P. Jones, R. Julin, P. Kuusiniemi, W.H. Trzaska, J. Uusitalo F. Ameil, M. Bernas, P. Armbruster, S. Czajkowski, P. Dessagne, H. Geissel, E. Hanelt, C. Kozhuharov, C. Miehé, C. Donzaud, A. Grewe, A. Heinz, Z. Janas, M. de Jong, W. Schwab, S. Steinhäuser R. Arnold, C. Augier, J. Baker, A. Barabash, D. Blum, V. Brudanin, A.J. Caffrey, J.E. Campagne, E. Caurier, D. Dassié, V. Egorov, R. Eschbach, T. Filipova, R. Gurriaran, J.L. Guyonnet, F. Hubert, Ph. Hubert, S. Jullian, I. Kisel, O. Kochetov, V.N. Kornoukhov, V. Kovalenko, D. Lalanne, F. Laplanche, F. Leccia, I. Linck, C. Longuemare, Ch. Marquet, F. Mauger, P. Mennrath, H.W. Nicholson, I. Pilugin, F. Piquemal, O. Purtov, J.-L. Reyss, X. Sarazin, F. Scheibling, J. Suhonen, C.S. Sutton, G. Szklarz, V. Timkin, R. Torres, V.I. Tretyak, V. Umatov, I. Vanyushin, A. Vareille, Yu. Vasilyev, Ts. Vylov, V. Zerkin, L. Axelsson, J. Äystö, M.J.G. Borge, L.M. Fraile, H.O.U. Fynbo, A. Honkanen, P. Hornshøj, A. Jokinen, B. Jonson, P.O. Lipas, I. Martel, I. Mukha, T. Nilsson, G. Nyman, B. Petersen, K. Riisager, M.H. Smedberg, O. Tengblad, ISOLDE, and PrvCom GAu December 1997, and erratum NUPAB 641,529 A. Azhari, T. Baumann, J.A. Brown, M. Hellström, J.H. Kelley, R.A. Kryger, D.J. Millener, H. Madani, E. Ramakrishnan, D.E. Russ, T. Suomijarvi, M. Thoennessen, S. Yokoyama J.C. Batchelder, C.R. Bingham, K. Rykaczewski, K.S. Toth, T. Davinson, J.A. McKenzie, P.J. Woods, T.N. Ginter, C.J. Gross, J.W. McConnell, E.F. Zganjar, J.H. Hamilton, W.B. Walters, C. Baktash, J. Greene, J.F. Mas, W.T. Milner, S.D. Paul, D. Shapira, X.J. Xu, C.H. Yu P.H. Barker, P.A. Amundsen M. Balodis, P. Prokofjevs, N. Krāmere, L. Simonova, J. Bērzinš, T. Krasta, J. Kern, A. Raemy, J.C. Dousse, W. Schwitz, J.A. Cizewski, G.G. Colvin, H.G. Börner, P. Geltenbort, F. Hoyler, S.A. Kerr, K. Schreckenbach, R. Georgii, T. von Egidy, J. Klora, H. Lindner, U. Mayerhofer, A. Walter, A.V. Murzin, V.A. Libman, I.A. Kondurov, Yu. E. Loginov, P.A. Sushkov, S. Brant, V. Paar, V. Lopac Y. Bai, D.J. Vieira, H.L. Seifert, J.M. Wouters, and PrvCom AHW June 1998 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1998Be19 PRVCA 57, 2740 1998Be28 NUPAB 636, 419 1998Bh04 PRVCA 58, 1247 1998Bh12 PRVCA 58, 3677 1998Bi.A P-Bellaire 1998Bo30 1998By01 1998Ch20 NUPAB PYLBB NUPAB 642, 80, 637, 419 2077 3 1998Co27 EPJAA 3, 17 1998Cz01 NUPAB 628, 537 1998Da03 PRLTA 80, 1849 1998Do04 PRVCA 57, 1159 1998En.A 1998Es02 PrvCom PRVCA AHW 57, 008 417 1998Fo04 EPJAA 1, 355 1998Fo06 PRVCA 58, 749 1998Fr15 PRLTA 81, 3100 1998Ge13 EPJAA 3, 225 1998Gr12 PYLBB 429, 247 1998Gr14 PRLTA 81, 766 474 657 T. Belgya, B. Fazekas, Zs. Kasztovszky, Zs. Revay, G. Molnar, M. Yeh, P.E. Garrett, S.W. Yates A.V. Belozyorov, R. Kalpakchieva, Yu. E. Penionzhkevich, Z. Dlouhy, S. Piskor, J. Vincour, H.G. Bohlen, M. von Lucke-Petsch, A.N. Ostrowski, D.V. Alexandrov, E. Yu. Nikolsky, B.G. Novatsky, D.N. Stepanov M. Bhattacharya, A. Garcı́a, M.M. Hindi, E.B. Norman, C.E. Ortiz, N.I. Kaloskamis, C.N. Davids, O. Civitarese, J. Suhonen M. Bhattacharya, A. Garcı́a, N.I. Kaloskamis, E.G. Adelberger, H.E. Swanson, R. Anne, M. Lewitowicz, M.G. Saint-Laurent, W. Trindler, C. Donzaud, D. Guillemaud-Mueller, S. Leenhardt, A.C. Mueller, F. Pougheon, O. Sorlin C.R. Bingham, J.C. Batchelder, J.A. Cizewski, C.N. Davids, R.J. Irvine, W. Reviol, D. Sewerniak, K.S. Toth, W.B. Walters, J. Wauters, J.L. Wood, X.J. Xu, J. Uusitalo, E.F. Zganjar R. Böttger, H. Schölermann A.P. Byrne, S. Bayer, G.D. Dracoulis, T. Kibédi M. Chartier, W. Mittig, N.A. Orr, J.-C. Angélique, G. Audi, J.-M. Casandjian, A. Cunsolo, C. Donzaud, A. Foti, A. Lépine-Szily, M. Lewitowicz, S. Lukyanov, M. Mac Cormick, D.J. Morrissey, A.N. Ostrowski, B.M. Sherril, C. Stéphan, T. Suomijärvi, L. Tassan-Got, D.J. Vieira, A.C.C. Villari, J.M. Wouters J.F.C. Cocks, M. Muikku, W. Korten, R. Wadsworth, S. Chmel, J. Domscheit, P.T. Greenlees, K. Helariutta, I. Hibbert, M. Houry, D. Jenkins, P. Jones, R. Julin, S. Juutinen, H. Kankaanpää, H. Kettunen, P. Kuusiniemi, M. Leino, Y. Le Coz, R. Lucas, E. Mergel, R.D. Page, A. Savelius, W. Trzaska C. Czajkowski, S. Andriamonje, B. Blank, F. Boué, R. Del Moral, J.P. Dufour, A. Fleury, P. Pourre, M.S. Pravikoff, E. Hanelt, K.-H. Schmidt, N.A. Orr C.N. Davids, P.J. Woods, D. Seweryniak, A.A. Sonzogni, J.C. Batchelder, C.R. Bingham, T. Davinson, D.J. Henderson, R.J. Irvine, G.L. Poli, J. Uusitalo, W.B. Walters J. Döring, H. Schatz, A. Aprahamian, R.C. de Haan, J. Görres, M. Wiescher, W.B. Walters, J. Rikovska, L.T. Brown, C.N. Davids, C.J. Lister, D. Seweryniak, B. Foy T. Enqvist, et al (PrvCom of H. Geissel) K. Eskola, P. Kuusiniemi, M. Leino, J.F.C. Cocks, T. Enqvist, S. Hurskanen, H. Kettunen, W.H. Trzaska, J. Uusitalo, R,G. Allat, P.T. Greenlees, R.D. Page B. Fornal, R. Broda, W. Krolas, T. Pawlat, J. Wrzesinski, P.J. Daly, P. Bhattacharyya, Z.W. Grabowski, C.T. Zhang, D. Bazzacco, S. Lunardi, C. Rossi Alvarez, G. de Angelis, D.R. Napoli B.D. Foy, D.S. Brenner, C.N. Davids, D. Seweryniak, D. Blumenthal, R.L. Gill, N.V. Zamfir, D.D. Warner, C.J. Barton S. Franchoo, M. Huyse, K. Kruglov, Y. Kudryavtsev, W.F. Mueller, R. Raabe, I. Reusen, P. Van Duppen, J. Van Roosbroeck, L. Vermeeren, A. Wöhr, K.-L. Kratz, B. Pfeiffer, W.B. Walters U. Georg, W. Borchers, M. Keim, A. Klein, P. Lievens, R. Neugart, M. Neuroth, P.M. Rao, Ch. Schulz, ISOLDE R. Grzywacz, S. Andriamonje, B. Blank, F. Boué, S. Czajkowski, F. Davi, R. Del Moral, C. Donzaud, J.P. Dufour, A. Fleury, H. Grawe, A. Grewe, A. Heinz, Z. Janas, A.R. Junghans, M. Karny, M. Lewitowicz, A. Musquère, M. Pfützner, M.-G. Porquet, M.S. Pravikoff, J.-E. Sauvestre, K. Sümmerer R. Grzywacz, R. Béraud, C. Borcea, A. Emsallem, M. Glogowski, H. Grawe, D. Guillemaud-Mueller, M. Hjorth-Jensen, M. Houry, M. Lewitowicz, A.C. Mueller, A. Nowak, A. Plochocki, M. Pfützner, K. Rykaczewski, M.G. Saint-Laurent, J.-E. Sauvestre, M. Schaefer, O. Sorlin, J. Szerypo, W. Trinder, S. Viteritti, J. Winfield 658 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1998Gr.B 1998Gu10 P-Bellaire PRVCA 58, 430 116 1998Ha36 1998Ho13 1998Ho15 PRVCA RPPHA PRVCA 58, 61, 58, 821 639 1318 1998Ik01 PRVCA 57, 2804 1998Ik02 EPJAA 2, 379 1998Is06 EPJAA 2, 173 1998Is11 PRLTA 81, 4100 1998Jo18 EPJAA 3, 271 1998Ka42 NUPAB 640, 3 1998Ka.A AnRpt GSI 1998Ki20 PYLBB 443, 82 1998Ko66 JUPSA 67, 3405 1998Ku17 EPJAA 2, 241 1998Le15 EPJAA 2, 9 1998Le.A 1998Lh02 P-Bellaire EPJAA 1, 422 285 1998Li46 PRVCA 58, 2677 1998Li50 PYLBB 440, 246 1998Lu08 EPJAA 1998Mo30 EPJAA 2, 3, 149 99 49, 1653 359 1998Ni07 1998No.A ARISE P-Bellaire 22 R. Grzywacz V. Guimaraes, S. Kubono, N. Ikeda, I. Katayama, T. Nomura, M.H. Tanaka, Y. Fuchi, H. Kawashima, S. Kato, H. Toyokawa, C.C. Yun, T. Niizeki, T. Kubo, M. Ohura, M. Hosaka P.D. Harty, N.S. Bowden, P.H. Barker, P.A. Amundsen S. Hofmann I. Hossain, T. Ishii, A. Makishima, M. Asai, S. Ichikawa, M. Itoh, M. Ishii, P. Kleinheinz, M. Ogawa T. Ikuta, H. Ikezoe, S. Mitsuoka, I. Nishinaka, K. Tsukuda, Y. Nagame, J. Lu, T. Kuzumaki H. Ikezoe, T. Ikuta, S. Mitsuoka, Y. Nagame, I. Nishinaka, K. Tsukada, T. Ohtsuki, T. Kuzumaki, J. Lu S. Issmer, M. Fruneau, J.A. Pinston, M. Asghar, D. Barnéoud, J. Genevey, Th. Kerscher, K.E.G. Löbner T. Ishii, M. Asai, I. Hossain, P. Kleinheinz, M. Ogawa, A. Makishima, S. Ichikawa, M. Itoh, M. Ishii, J. Blomqvist A. Jokinen, M. Oinonen, J. Äystö, P. Baumann, P. Dendooven, F. Didierjean, V. Fedoseyev, A. Huck, Y. Jading, A. Knipper, M. Koizumi, U. Köster, J. Lettry, P.O. Lipas, W. Liu, V. Mishin, M. Ramdhane, H. Ravn, E. Roeckl, V. Sebastian, G. Walter, ISOLDE M. Karny, L. Batist, B.A. Brown, D. Cano-Ott, R. Collatz, A. Gadea, R. Grzywacz, A. Guglielmetti, M. Hellström, Z. Hu, Z. Janas, R. Kirchner, F. Moroz, A. Piechaczek, A. Plochocki, E. Roeckl, B. Rubio, K. Rykaczewski, M. Shibata, J. Szerypo, J.L. Tain, V. Wittmann, A. Wöhr M. Karny, L. Batist, D. Cano, R. Collatz, A. Gadea, M. Gierlik, R. Grzywacz, A. Guglielmetti, M. Hellström, Z. Hu, Z. Janas, R. Kirchner, F. Moroz, A. Piechaczek, A. Plochocki, E. Roeckl, B. Rubio, K. Rykaczewski, M. Shibata, J. Szerypo, J.L. Tain, V. Wittmann, A. Wöhr S.L. King, J. Simpson, R.D. Page, N. Amzal, T. Bäck, B. Cederwall, J.F.C. Cocks, D.M. Cullen, P.T. Greenlees, M.K. Harder, K. Helariutta, P. Jones, R. Julin, S. Juutinen, H. Kankaanpää, A. Keenan, H. Kettunen, P. Kuusiniemi, M. Leino, R. Lemmon, M. Muikku, A. Savelius, J. Uusitalo, P. Van Isacker Y. Kojima, M. Asai, A. Osa, M. Koizumi, T. Sekine, M. Shibata, H. Yamamoto, K. Kawade, T. Tachibana J. Kurpeta, G. Lhersonneau, J.C. Wang, P. Dendooven, A. Honkanen, M. Huhta, M. Oinonen, H. Penttilä, K. Peräjärvi, J.R. Persson, A. Plochocki, J. Äystö A.I. Levon, J. de Boer, M. Loewe, M. Würkner, T. Czosnyka, J. Iwanicki, P.J. Napiorkowski M. Leino, et al (and oral presentation) G. Lhersonneau, B. Pfeiffer, J. Alstad, P. Dendooven, K. Eberhardt, S. Hankonen, I. Klöckl, K.-L. Kratz, A. Nähler, R. Malmbeck, J.P. Omtvedt, H. Penttilä, S. Schoedder, G. Skarnemark, N. Trautmann, J. Äystö W. Liu, M. Hellström, R. Collatz, J. Benlliure, L. Chulkov, D. Cortina Gil, F. Farget, H. Grawe, Z. Hu, N. Iwasa, M. Pfützner, A. Piechaczek, R. Raabe, I. Reusen, E. Roeckl, G. Vancraeynest, A. Wöhr M. Lipoglavšek, D. Seweryniak, C.N. Davids, C. Fahlander, M. Górska, R.V.F. Janssens, J. Nyberg, J. Uusitalo, W.B. Walters, I. Ahmad, J. Blomqvist, M.P. Carpenter, J.A. Cizewski, S.M. Fischer, H. Grawe, G. Hackman, M. Huhta, C.J. Lister, D. Nisius, G. Poli, P. Reiter, J. Ressler, J. Schwartz, A. Sonzogni X. Lu, J. Guo, K. Zhao, Y. Cheng, Y. Ma, Z. Li, S. Li, M. Ruan T. Morek, K. Starosta, Ch. Droste, D. Fossan, G. Lane, J. Sears, J. Smith, P. Vaska Y. Nir-El, N. Lavi M. Notani, N. Aoi, N. Fukuda, H. Iwasaki, K. Yoneda, H. Ogawa, T. Teranishi, S.M. Lukyanov, Yu. E. Penionzhkevich, T. Nakamura, H. Sakurai, E. Ideguchi, A. Yoshida, Y. Watanabe, T. Kubo, M. Ishihara G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1998Oi.A 1998Pf02 JYFL-7 1998 PYLBB 444, 1998Po.A 1998Ri03 1998Ro45 1998Sh21 PrvCom PRLTA PACHA ARISE GAu 80, 70, 49, Mar 3206 217 1481 1998So03 NUPAB 632, 205 1998St28 1998Su16 1998Ti06 1998To14 NUPAB EPJAA NUPAB PRVCA 642, 2, 636, 58, 361 237 249 1310 1998Tu01 PRVCA 57, 1648 1998Uu01 PRVCA 57, 2259 1998Uu.A P-Bellaire 1998Vi06 PYLBB 437, 264 1998Wa.A PrvCom 1998Wh01 PRVCA AHW 57, Feb 1112 1998Wh02 PYLBB 425, 239 1998Wi.A 32 375 P-Bellaire 606 1998Wu01 PRLTA 80, 2085 1998Yo06 JPGPE 24, 1395 1998Yo.A AnRpt RIKEN 1998Zh03 EPJAA 1, 1 1998Zh22 PRVCA 58, 156 78 659 M. Oinonen et al. M. Pfützner, P. Armbruster, T. Baumann, J. Benlliure, M. Bernas, W.N. Catford, D. Cortina-Gil, J.M. Daugas, H. Geissel, M. Górska, H. Grawe, R. Grzywacz, M. Hellström, N. Iwasa, Z. Janas, A.R. Junghans, M. Karny, S. Leenhardt, M. Lewitowicz, A.C. Mueller, F. de Oliviera, P.H. Regan, M. Rejmund, K. Rykaczewski, K. Sümmerer F. Pougheon D.S. Richardson, D.M. Benton, D.E. Evans, J.A.R. Griffith, G. Tungate K.J.R. Rosman, P.D.P. Taylor M. Shibata, Y. Satoh, S. Itoh, H. Yamamoto, K. Kawade, Y. Kasugai, Y. Ikeda O. Sorlin, V. Borrel, S. Grevy, D. Guillemaud-Mueller, A.C. Mueller, F. Pougheon, W. Bohmer, K.-L. Kratz, T. Mehren, P. Moller, B. Pfeiffer, T. Rauscher, M.G. Saint-Laurent, R. Anne, M. Lewitowicz, A. Ostrowski, T. Dorfler, W.-D. Schmidt-Ott A.E. Stuchbery, G.J. Lampard, H.H. Bolotin M. Sugawara, H. Kusakari, T. Murakami, T. Kohno D.R. Tilley, C.M. Cheves, J.H. Kelley, S. Raman, H.R. Weller K.S. Toth, X.-J. Xu, C.R. Bingham, J.C. Batchelder, L.F. Conticchio, W.B. Walters, L.T. Brown, C.N. Davids, R.J. Irvine, D. Seweryniak, J. Wauters, E.F. Zganjar A. Türler, R. Dressler, B. Eichler, H.W. Gäggeler, D.T. Jost, M. Schädel, W. Brüchle, K.E. Gregorich, N. Trautmann, S. Taut J. Uusitalo, D. Seweryniak, P.F. Mantica, J. Rikovska, D.S. Brenner, M. Huhta, J. Greene, J.J. Ressler, B. Tomlin, C.N. Davids, C.J. Lister, W.B. Walters J. Uusitalo, C.N. Davids, P.J. Woods, D. Sewernyak, A.A. Sonzogni, J.C. Batchelder, C.R. Bingham, T. Davinson, J. de Boer, D.J. Henderson, H.J. Maier, J. Ressler, R. Slinger, W.B. Walter S.M. Vincent, P.H. Regan, D.D. Warner, R.A. Bark, D. Blumenthal, M.P. Carpenter, C.N. Davids, W. Gelletly, R.V.F. Janssens, C.D. O’Leary, C.J. Lister, J. Simpson, D. Seweryniak, T. Saitoh, J. Schwartz, S. Törmänen, O. Juillet, F. Nowacki, P. Van Isacker A.H. Wapstra D.H. White, R.W. Hoff, H.G. Börner, K. Schreckenbach, F. Hoyler, G. Colvin, I. Ahmad, A.M. Friedman, J.R. Erskine C. Wheldon, R. D’Alarcao, P. Chowdhury, P.M. Walker, E. Seabury, I. Ahmad, M.P. Carpenter, D.M. Cullen, G. Hackman, R.V.F. Janssens, T.L. Khoo, D. Nisius, C.J. Pearson, P. Reiter J.A. Winger, H.H. Yousif, W.C. Ma, V. Ravikumar, W. Lui, S.K. Phillips, R.B. Piercey, P.F. Mantica, B. Pritychenko, R.M. Ronningen, M. Steiner A.H. Wuosmaa, I. Ahmad, S.M. Fischer, J.P. Greene, G. Hackman, V. Nanal, G. Savard, J.P. Schiffer, P. Wilt, S.M. Austin, B.A. Brown, S.J. Freedman, J.J. Connell K. Yoneda, N. Aoi, H. Iwasaki, H. Sakurai, H. Ogawa, T. Nakamura, W.-D. Schmidt-Ott, M. Schaefer, M. Notani, N. Fukuda, E. Ideguchi, T. Kishida, S.S. Yamamoto, M. Ishihara K. Yoneda, H. Sakurai, N. Aoi, N. Fukuda, T. Gomi, E. Ideguchi, N. Imai, H. Iwasaki, T. Kubo, Z. Liu, S.M. Lukyanov, T. Nakamura, M. Notani, H. Ogawa, Y.E. Penionzhkevich, W.-D. Schmidt-Ott, S. Shimoura, E. Sokol, Y.X. Watanabe, A. Yoshida, X. Zhou, M. Ishihara Y.H. Zhang, Q.Z. Zhao, S.F. Zhu, H.S. Xu, X.H. Zhou, Y.X. Guo, X.G. Lei, J. Lu, Q.B. Gou, H.J. Jin, Z. Liu, Y.X. Luo, X.F. Sun, Y.T. Zhu L. Zhang, J. Zhao, J. Zheng, J. Wang, Z. Qin, Y. Yang, C. Zhang, G. Jin, G. Guo, Y. Du, T. Guo, T. Wang, B. Guo, J. Tian, Y. Lou 1999 660 1999Al20 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 PYLBB 457, 253 1999Am05 NUPAB 651, 3 1999An10 PRLTA 82, 1819 1999An36 APOBB 30, 1255 1999An52 EPJAA 6, 381 1999Ar25 NUPAB 658, 299 1999As03 PRVCA 59, 3060 1999Ba45 EPJAA 5, 49 1999Ba84 NUPAB 657, 113 1999Be53 NUPAB 658, 129 1999Be63 NUPAB 660, 87 1999Be64 NUPBB 563, 97 1999Bi14 PRVCA 59, 2984 1999Bo26 PPNPD 42, 17 1999Br47 PRLTA 83, 4510 1999Ca21 EPJAA 5, 1 1999Ca46 PRLTA 83, 4506 A. Alessandrello, J.W. Beeman, C. Brofferio, O. Cremonesi, E. Fiorini, A. Giuliani, E.E. Haller, B. Margesin, A. Monfardini, A. Nucciotti, M. Pavan, G. Pessina, G. Pignatel, E. Previtali, L. Zanotti, M. Zen F. Ames, G. Audi, D. Beck, G. Bollen, M. de Saint Simon, R. Jertz, H.J. Kluge, A. Kohl, M. König, D. Lunney, I. Martel, R.B. Moore, T. Otto, Z. Patyk, H. Raimbault-Hartmann, G. Rouleau, G. Savard, E. Schark, S. Schwarz, L. Schweikhard, H. Stolzenberg, J. Szerypo, ISOLDE A.N. Andreyev, M. Huyse, P. Van Duppen, J.F.C. Cocks, K. Helariutta, H. Kettunen, P. Kuusiniemi, M. Leino, W.H. Trzaska, K. Eskola, R. Wyss A.N. Andreyev, N. Bijnens, J.F. Cocks, K. Eskola, K. Helariutta, M. Huyse, H. Kettunen, P. Kuusiniemi, M. Leino, W.H. Trzaska, P. Van Duppen, R. Wyss A.N. Andreyev, D. Ackermann, P. Cagarda, J. Gerl, F. Heßberger, S. Hofmann, M. Huyse, A. Keenan, H. Kettunen, A. Kleinbohl, A. Lavrentiev, M. Leino, B. Lommel, M. Matos, G. Münzenberg, C. Moore, C.D. O’Leary, R.D. Page, S. Reshitko, S. Saro, C. Schlegel, H. Schaffner, M. Taylor, P. Van Duppen, L. Weissman, R. Wyss R. Arnold, C. Augier, J. Baker, A. Barabash, D. Blum, V. Brudanin, A.J. Caffrey, J.E. Campagne, E. Caurier, D. Dassié, V. Egorov, T. Filipova, R. Gurriaran, J.L. Guyonnet, F. Hubert, Ph. Hubert, S. Jullian, I. Kisel, O. Kochetov, V.N. Kornoukhov, V. Kovalenko, D. Lalanne, F. Laplanche, F. Leccia, I. Linck, C. Longuemare, Ch. Marquet, F. Mauger, H.W. Nicholson, I. Pilugin, F. Piquemal, J.-L. Reyss, X. Sarazin, F. Scheibling, J. Suhonen, C.S. Sutton, G. Szklarz, V. Timkin, R. Torres, V.I. Tretyak, V. Umatov, I. Vanyushin, A. Vareille, Yu. Vasilyev, Ts. Vylov M. Asai, S. Ichikawa, K. Tsukada, M. Sakama, M. Shibata, Y. Kojima, A. Osa, I. Nishinaka,Y. Nagame, K. Kawade, T. Tachibana J.C. Batchelder, K.S. Toth, C.R. Bingham, L.T. Brown, L.F. Conticchio, C.N. Davids, R.J. Irvine, D. Sewerniak, W.B. Walters, J. Wauters, E.F. Zganjar, J.L. Wood, C. De Coster, B. Decroix, K. Heyde R.A. Bark, S. Törmänen, T. Bäck, B. Cederwall, S.W. Ødegøard, J.F.C. Cocks, K. Helariutta, P. Jones, R. Julin, S. Juutinen, H. Kankaanpää, H. Kettunen, P. Kuusiniemi, M. Leino, M. Muikku, P. Rahkila, A. Savelius, M. Bergström, F. Ingebretsen, A. Maj, M. Mattiuzzi, W. Mueller, L.L. Riedinger, T. Saitoh, P.O. Tjøm U.C. Bergmann, L. Axelsson, M.J.G. Borge, V.N. Fedoseyev, C. Forssén, H.O.U. Fynbo, S. Grévy, P. Hornshøj, Y. Jading, B. Jonson, U. Köster, K. Markenroth, F.M. Marqués, V.I. Mishin, T. Nilsson, G. Nyman, A. Oberstedt, H.L. Ravn, K. Riisager, G. Schrieder, V. Sebastian, H. Simon, O. Tengblad, F. Wenander, K. Wilhelmsen Rolander, ISOLDE J. Benlliure, K.-H. Schmidt, D. Cortina-Gil, T. Enqvist, F. Farget, A. Heinz, A.R. Junghans, J. Pereira, J. Taieb P. Belli, R. Bernabei, C.J. Dai, F. Grianti, H.L. He, G. Ignesti, A. Incicchitti, H.H. Kuang, J.M. Ma, F. Montecchia, O.A. Ponkratenko, D. Prosperi, V.I. Tretyak, Yu. G. Zdesenko C.R. Bingham, J. Batchelder, K. Rykaczewski, K.S. Toth, C.-H. Yu, T.N. Ginter, C.J. Gross, R. Grzywacz, M. Karny, S.H. Kim, B.D. MacDonald, J.F. Mas, J.W. McConnell, P.B. Semmes, J. Szerypo, W. Weintraub, E.F. Zganjar H.G. Bohlen, A. Blazevic, B. Gebauer, W. von Oertzen, S. Thummerer, R. Kalpakchieva, S.M. Grimes, T.N. Massey M.P. Bradley, J.V. Porto, S. Rainville, J.K. Thompson, D.E. Pritchard, and PrvCom GAu Nov 1999 G. Canchell, R. Béraud, E. Chabanat, E. Emsallem, N. Redon, P. Dendooven, J. Huikari, A. Jokinen, V. Kolhinen, G. Lhersonneau, M. Oinonen, A. Nieminen, H. Penttilä, K. Peräjärvi, J.C. Wang C. Carlberg, T. Fritioff, I. Bergström G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1999Dl01 JPHGB 25, 859 1999Dr09 PRVCA 59, 3433 1999Dr13 JPGPE 25, 1839 1999Fe10 EPJAA 6, 235 1999Fo01 1999Fo.A 1999Ga41 PRLTA PrvCom EPJAA 82, GAu 6, 1823 Oct 59 1999Ga.A B-Seeheim 1999Gi14 NUPAB 658, 97 1999Gr28 EPJAA 6, 269 1999Ha05 PRLTA 82, 1391 1999He11 1999He25 JPHGB APOBB 25, 30, 877 1267 1999He32 EPJAA 6, 289 1999Ho01 NUPAB 645, 331 1999Ho09 1999Ho28 PYLBB PRVCA 451, 60, 247 57301 1999Hu05 PRVCA 59, 2402 1999Hu10 PRVCA 60, 24315 1999Ja02 PRLTA 82, 295 O34 661 Z. Dlouhý, Yu. Penionzhkevich, R. Anne, D. Baiborodin, C. Borcea, A. Fomichev, D. Guillemaud-Mueller, R. Kalpakchieva, M. Lewitowicz, S. Lukyanov, A.C. Mueller, Yu. Oganessian, R.D. Page, A. Reed, M.G. Saint-Laurent, E. Sokol, N. Skobelev, O. Sorlin, O. Tarasov, V. Toneev, W. Trinder R. Dressler, B. Eichler, D.T. Jost, D. Piguet, A. Tuerler, Ch. Duehlmann, R. Eichler, H.W. Gaeggeler, M. Gaertner, M. Schaedel, S. Taut, A.B. Yakushev O. Dragoun, A. Spalek, M. Rysavy, A. Kovalik, E.A. Yakushev, V. Brabec, A.F. Novgorodov, N. Dragounova, J. Rizek X.C. Feng, Y.X. Guo, X.H. Zhou, X.F. Sun, X.G. Lei, W.X. Huang, J.J. He, Z. Liu, Y.H. Zhang, S.F. Zhu, Y.X. Luo, S.X. Wen, G.J. Yuan, X.G. Wu B. Fogelberg, K.A. Mezilev, H. Mach, V.I. Isakov, J. Slivova K. Foehl Z.G. Gan, Z. Qin, J.S. Guo, L.J. Shi, H.Y. Liu, T.R. Guo, X.G. Lei, R.C. Ma, W.X. Huang, S.G. Yuan, X.Q. Zhang, G.M. Jin H.W. Gäggeler, R. Dressler, A. Türler, D.T. Jost, B. Eichler, H.R. von Gunten J. Gizon, A. Gizon, J. Timár, Gh. Cata-Danil, B.M. Nyakó, L. Zolnai, A.J. Boston, D.T. Joss, E.S. Paul, A.T. Semple, N.J. O’Brien, C.M. Parry, D. Bucurescu, S. Brant, V. Paar P.T. Greenlees, P. Kuusiniemi, N. Amzal, A. Andreyev, P.A. Butler, K.J. Cann, J.F.C. Cocks, O. Dorvaux, T. Enqvist, P. Fallon, B. Gall, M. Guttormsen, D. Hawcroft, K. Helariutta, F.P. Heßberger, F. Hoellinger, G.D. Jones, P. Jones, R. Julin, S. Juutinen, H. Kankaanpää, H. Kettunen, M. Leino, S. Messelt, M. Muikku, S. Ødegård, R.D. Page, A. Savelius, A. Schiller, S. Siem, W.H. Trzaska, T. Tveter, J. Uusitalo M. Hannawald, T. Kautsch, A. Wöhr, W.B. Walters, K.-L. Kratz, V.N. Fedoseyev, V.L. Mishin, W. Böhmer, B. Pfeiffer, V. Sebastian, Y. Jading, U. Köster, J. Lettry, H.L. Ravn, ISOLDE F.P. Heßberger K. Helariutta, M. Muikku, J.F.C. Cocks, P. Jones, R. Julin, S. Juutinen, H. Kankaanpää, H. Kettunen, P. Kuusiniemi, M. Leino, P. Rahkila, A. Savelius, W.H. Trzaska, J. Uusitalo, P.T. Greenlees, R.D. Page K. Helariutta, J.F.C. Cocks, T. Enqvist, P.T. Greenlees, P. Jones, R. Julin, S. Juutinen, P. Jämsen, H. Kankaanpää, H. Kettunen, P. Kuusiniemi, M. Leino, M. Muikku, M. Piiparinen, P. Rahkila, A. Savelius, W.H. Trzaska, S. Törmänen, J. Uusitalo, R.G. Allatt, P.A. Butler, R.D. Page, M. Kapusta J. Honzátko, I. Tomandl, V. Bondarenko, D. Bucurescu, T. von Egidy, J. Ott, W. Schauer, H.-F. Wirth, C. Doll, A. Gollwitzer, G. Graw, R. Hertenberger, B.D. Valnion see also 98Ho16 E. Holzschuh, W. Kündig, L. Palermo, H. Stüssi, P. Wenk F. Hoellinger, B.J.P. Gall, N. Schulz, N. Amzahl, P.A. Butler, P.T. Greenlees, D. Hawcroft. J.F.C. Cocks, K. Helariutta, P.M. Jones, R. Julin, S. Juutinen, H. Kankaanpää, H. Kettunen, P. Kuusiniemi, M. Leino, M. Muikku, D. Savelius W.X. Huang, R.C. Ma, S.W. Xu, X.J. Xu, J.S. Guo, X.F. Sun, Y.X. Xie, Z.K. Li, Y.X. Ge, Y.Y. Wang, C.F. Wang, T.M. Zhang, G.M. Jin. Y.X. Luo Z. Hu, L. Batist, J. Agramunt, A. Algora, B.A. Brown, D. Cano-Ott, R. Collatz, A. Gadea, M. Gierlik, M. Górska, H. Grawe, M. Hellström, Z. Janas, M. Karny, R. Kirchner, F. Moroz, A. Plochocki, M. Rejmund, E. Roeckl, B. Rubio, M. Shibata, T. Szerypo, J.L. Tain, V. Wittmann Z. Janas, C. Chandler, B. Blank, P.H. Regan, A.M. Bruce, W.N. Catford, N. Curtis, S. Czajkowski, Ph. Dessagne, A. Fleury, W. Gelletly, J. Giovinazzo, R. Grzywacz, M. Lewitowicz, C. Longour, C. Marchand , C. Miehé, N.A. Orr, R.D. Page, C.J. Pearson, M.S. Pravikoff, A.T. Reed, M.G. SaintLaurent, J.A. Sheikh, S.M. Vincent, R. Wadsworth, D.D. Warner, J.S. Winfield 662 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1999Ke05 PYLAA 255, 221 1999La14 PRVCA 59, 3086 1999Lh01 PRVCA 60, 14315 1999Li33 EPJAA 5, 351 1999Li46 1999Mi17 PRVCA EPJAA 60, 5, 67304 143 1999Mo30 NUPAB 657, 251 1999Mo39 JPCRB 1999Mu17 PRLTA 28, 83, 1713 3613 1999Na27 PRLTA 83, 1112 1999Ni03 PRLTA 83, 1104 1999Og03 PYLBB 451, 11 1999Og05 EPJAA 5, 63 1999Og07 NATUA 400, 242 1999Og10 PRLTA 83, 3154 1999Og.A 1999Og.B B-Seeheim B-Seeheim 1999Pi08 1999Po09 NPBSE PRVCA 77, 59, 352 2979 1999Pr10 PRVCA 60, 54307 O4 O5 E.G. Kessler,Jr., M.S. Dewey, R.D. Deslattes, A. Henins, H.G. Börner, M. Jentschel, C. Doll, H. Lehmann C.A. Laue, K.E. Gregorich, R. Sudowe, M.B. Hendricks, J.L. Adams, M.R. Lane, D.M. Lee, C.A. McGrath, D.A. Shaughnessy, D.A. Strellis, E.R. Sylwester, P.A. Wilk, D.C. Hoffman G. Lhersonneau, J.C. Wang, S. Hankonen, P. Dendooven, P. Jones, R. Julin, J. Äystö Z. Li, S. Xu, Y. Xie, Y. Yu, C. Wang, J. Xing, Q. Pan, Q. Hu, S. Li, H. Chen, T. Zhang Z. Li, S. Xu, Y. Xie, R. Ma, Y. Ge, C. Wang, W. Huang, T. Zhang Ch. Miehé, Ph. Dessagne, Ch. Pujol, G. Walter, B. Jonson, M. Lindroos, ISOLDE C.-B. Moon, S.J. Chae, T. Komatsubara, T. Shizuma, Y. Sasaki, H. Ishiyama, T. Jumatsu, K. Furuno P.J. Mohr, B.N. Taylor W.F. Mueller, B. Bruyneel, S. Franchoo, H. Grawe, M. Huyse, U. Köster, K.-L. Kratz, K. Kruglov, Y. Kudryavtsev, B. Pfeiffer, R. Raabe, I. Reusen, P. Thirolf, P. Van Duppen, J. Van Roosbroeck, L. Vermeeren, W.B. Walters, L. Weissman T. Nakamura, N. Fukuda, T. Kobayashi, N. Aoi, H. Iwasaki, T. Kubo, A. Mengoni, M. Notani, H. Otsu, H. Sakurai, S. Shimoura, T. Teranishi, Y.X. Watanabe, K. Yoneda, M. Ishihara V. Ninov, K.E. Gregorich, W. Loveland, A. Ghiorso, D.C. Hoffman, D.M. Lee, H. Nitsche, W.J. Swiatecki, U.W. Kirbach, C.A. Laue, J.L. Adams, J.B. Patin, D.A. Shaughnessy, D.A. Strellis, P.A. Wilk H. Ogawa, K. Asahi, K. Sakai, A. Yoshimi, M. Tsuda, Y. Uchiyama, T. Suzuki, K. Suzuki, N. Kurokawa, M. Adachi, H. Izumi, H. Ueno, T. Shimoda, S. Tanimoto, N. Takahashi, W.-D. Schmidt-Ott, M. Schäfer, S. Fukuda, A. Yoshida, M. Notani, T. Kubo, H. Okuno, H. Sato, N. Aoi, K. Yoneda, H. Iwasaki, N. Fukuda, N. Fukunishi, M. Ishihara, H. Miyatake Yu. Ts. Oganessian, A.V. Yeremin, G.G. Gulbekian, S.L. Bogomolov, V.I. Chepigin, B.N. Gikal, V.A. Gorshkov, M.G. Itkis, A.P. Kabachenko, V.B. Kutner, A. Yu. Lavrentev, O.N. Malyshev, A.G. Popeko, J. Roháč, R.N. Sagaidak, S. Hofmann, G. Münzenberg, M. Veselsky, S. Saro, N. Iwasa, K. Morita Yu. Ts. Oganessian, A.V. Yeremin, A.G. Popeko, S. L Bogomolov, G.V. Buklanov, M.L. Chelnokov, V.I. Chepigin, B.N. Gikal, V.A. Gorshkov, G.G. Gulbekian, M.G. Itkis, A.P. Kabachenko, A. Yu. Lavrentev, O.N. Malyshev, J. Rohac, R.N. Sagaidak, S. Hofmann, S. Saro, G. Giardina, K. Morita Yu. Ts. Oganessian, V.K. Utyonkov, Yu. V. Lobanov, F. Sh. Abdullin, A.N. Polyakov, I.V. Shirokovsky, Yu. S. Tsyganov, G.G. Gulbekian, S.L. Bogomolov, B.N. Gikal, A.N. Mezentsev, S. Iliev, V.G. Subbotin, A.M. Sukhov, G.V. Buklanov, K. Subotic, M.G. Itkis, K.J. Moody, J.F. Wild, N.J. Stoyer, M.A. Stoyer, R.W. Lougheed Yu. Ts. Oganessian, A.V. Yeremin (and oral presentation) Yu. Ts. Oganessian, V.K. Utyonkov, Yu. V. Lobanov, F. Sh. Abdullin, A.N. Polyakov, I.V. Shirokovsky, Yu. S. Tsyganov, G.G. Gulbekian, S.L. Bogomolov, B.N. Gikal, A.N. Mezentsev, S. Iliev, V.G. Subbotin, A.M. Sukhov, G.V. Buklanov, K. Subotik, M.G. Itkis, K.J. Moody, J.F. Wild, N.J. Stoyer, R.W. Lougheed, and email F. Piquemal, NEMO G.L. Poli, C.N. Davids, P.J. Woods, D. Seweryniak, J.C. Batchelder, L.T. Brown, C.R. Bingham, M.P. Carpenter, L.F. Conticchio, T. Davinson, J. de Boer, S. Hamada, D.J. Henderson, R.J. Irvine, R.V.F. Janssens, H.J. Maier, L. Müller, F. Soramel, K.S. Toth, W.B. Walters, J. Wauters J.I. Prisciandaro, P.F. Mantica, A.M. Oros-Peusquens, D.W. Anthony, M. Huhta, P.A. Lofy, R.M. Ronningen G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1999Re06 PRVCA 59, 2416 1999Re16 PRVCA 60, 24311 1999Ry04 PRVCA 60, 11301 1999Sa06 PYLBB 448, 180 1999Sa.A 1999Sa.D P-Bormio B-Seeheim 1999Sc12 1999Se14 ARISE PRVCA 51, 60, 169 31304 1999Sh03 PRVCA 1999Sh12 PRLTA 1999Sm07 EPJAA 59, 82, 5, 101 1109 43 1999So17 PRLTA 83, 1116 1999So20 NUPAB 660, 3 1999Ta20 EPJAA 5, 123 1999Ta29 EPJAA 6, 119 1999Th09 PYLBB 467, 194 1999To04 1999To11 EPJAA PRVCA 4, 60, 233 11302 1999Ut01 PRLTA 82, 505 1999Wa09 PYLBB 454, 1 PW4 663 I. Reusen, I. Reusen, A. Andreyev, J. Andrzejewski, N. Bijnens, S. Franchoo, M. Huyse, Yu. Kudryavtsev, K. Kruglov, W.F. Mueller, A. Piechaczek, R. Raabe, K. Rykaczewski, J. Szerypo, P. Van Duppen, L. Vermeeren, J. Wauters, A. Wöhr A.T. Reed, O. Tarasov, R.D. Page, D. Guillemaud-Mueller, Yu. E. Penionzhkevich, R.G. Allatt, J.C. Angélique, R. Anne, C. Borcea, V. Burjan, W.N. Catford, Z. Dlouhý, C. Donzaud, S. Grévy, M. Lewitowicz, S.M. Lukyanov, F.M. Marqués, G. Martinez, A.C. Mueller, P.J. Nolan, J. Novák, N.A. Orr, F. Pougheon, P.H. Regan, M.G. Saint-Laurent, T. Siiskonen, E. Sokol, O. Sorlin, J. Suhonen, W. Trinder, S.M. Vincent K. Rykaczewski, J.C. Batchelder, C.R. Bingham, T. Davinson, T.N. Ginter, C.J. Gross, R. Grzywacz, M. Karny, B.D. MacDonald, J.F. Mas, J.W. McConnell, A. Piechacczek, R.C. Slinger, K.S. Toth, W.B. Walters, P.J. Woods, E.F. Zganjar, B. Barmore, L. Gr. Ixaru, A.T. Kruppa, W. Nazarewicz, M. Rizea, T. Vertse H. Sakurai, S.M. Lukyanov, M. Notani, N. Aoi, D. Beaumel, N. Fukuda, M. Hirai, E. Ideguchi, N. Imai, M. Ishihara, H. Iwasaki, T. Kubo, K. Kusaka, H. Kumagai, T. Nakamura, H. Ogawa, Yu. E. Penionzhkevich, T. Teranishi, Y.X. Watanabe, K. Yoneda, A. Yoshida F. Sarazin, et al, and PrvCom to D. Lunney March 1999 M. Sakama, K. Tsukuda, M. Asai, S. Ichikawa, Y. Oura, A. Osa, M. Shibata, I. Nishinaka, Y. Nagame, M. Ebihara, K. Kawade, H. Nakahara and poster U. Schotzig, E. Schonfeld, E. Gunther, R. Klein, H. Schrader D. Seweryniak, J. Uusitalo, M.P. Carpenter, D. Nisius, C.N. Davids, C.R. Bingham, L.T. Brown, I. Conticchio, D.J. Henderson, R.V.F. Janssens, W.B. Walters, J. Wauters, P.J. Woods R.K. Sheline, P. Alexa, C.F. Liang, P. Paris R.W. Shaw, J.P. Young, S.P. Cooper, O.F. Web M.B. Smith, R. Chapman, J.F.C. Cocks, O. Dorvaux, K. Helariutta, P.M. Jones, R. Julin, S. Juutinen, H. Kankaanpaa, H. Kettunen, P. Kuusiniemi, Y. Le Coz, M. Leino, D.J. Middleton, M. Muikku, P. Nieminen, P. Rahkila, A. Savelius, K.-M. Spohr A.A. Sonzogni, C.N. Davids, P.J. Woods, D. Seweryniak, M.P. Carpenter, J.J. Ressler, J. Schwartz, J. Uusitalo, W.B. Walters O. Sorlin, C. Donzaud, L. Axelsson, M. Belleguic, R. Béraud, C. Borcea, G. Canchel, E. Chabanat, J.M. Daugas, A. Emsallem, D. Guillemaud-Mueller, K.-L. Kratz, S. Leenhardt, M. Lewitowicz, C. Longour, M.J. Lopez, F. de Oliveira Santos, L. Petizon, B. Pfeiffer, F. Pougheon, M.G. Saint-Laurent, J.E. Sauvestre, and erratum Nucl. Phys. A669 (2000) 351 Y. Tagaya, S. Hashimoto, K. Morita, Y.H. Pu, T. Ariga, K. Ohta, T. Minemura, I. Hisinaga, T. Motobayashi, T. Nomura M. Tanigaki, K. Sekiguchi, M. Fujita, T. Hoshino, T. Baba, N. Kawamura, T. Shinozuka, M. Fujioka J. Thaysen, L. Axelsson, J. Äystö, M.J.G. Borge, L.M. Fraile, H.O.U. Fynbo, A. Honkanen, P. Hornshøj, Y. Jading, A. Jokinen, B. Jonson, I. Martel, I. Mukha, T. Nilsson, G. Nyman, M. Oinonen, K. Riisager, T. Siiskonen, M.H. Smedberg, O. Tengblad, F. Wenander, ISOLDE Y. Toh, S. Yamada, A. Taniguchi, Y. Kawase K.S. Toth, C.R. Bingham, J.C. Batchelder, L.T. Brown, L.F. Contecchio, C.N. Davids, R.J. Irvine, D. Sewerniak, D.M. Moltz, W.B. Walters, J. Wauters, E.F. Zganjar S.B. Utter, P. Beierdorfer, A. Barnes, R.W. Lougheed, J.R. Crespo Lopezurrutia, J.A. Becker, M.S. Weiss J.C. Wang, P. Dendooven, M. Hannawald, A. Honkanen, M. Huhta, A. Jokinen, K.-L. Kratz, G. Lhersonneau, M. Oinonen, H. Penttilä, K. Peräjärvi, B. Pfeiffer, J. Äystö 664 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 1999We07 PRVCA 59, 2004 1999Wh03 EPJAA 5, 353 5, 6, 60, 341 239 61302 1999Xi03 1999Xi04 1999Xu05 EPJAA EPJAA PRVCA 1999Ya.A P-Dubna 118 L. Weissmann, A. Andreyev, B. Bruyneel, S. Franchoo, M. Huyse, K. Kruglov, Y. Kudryavtsev, W.F. Mueller, R. Raabe, I. Reusen, P. Van Duppen, J. Van Roosbroeck, L. Vermeeren, U. Köster, K.L. Kratz, B. Pfeiffer, P. Thirolf, W.B. Walters C. Wheldon, P.M. Walker, R. D’Alarcao, P. Chowdhury, C.J. Pearson, E.H. Seabury, I. Ahmad, M.P. Carpenter, D.M. Cullen, G. Hackman, R.V.F. Janssens, T.L. Khoo, D. Nisius, P. Reiter Y. Xie, S. Xu, Z. Li, Y. Yu, Q. Pan, C. Wang, T. Zhang, G. Long, Y. Li Y. Xie, S. Xu, Z. Li, Y. Yu, Q. Pan, C. Wang, T. Zhang S.-W. Xu, Z.-K. Li, Y.-X. Xie, Q.-Y. Pan, Y. Yu, J. Adam, C.-F. Wang, J.P. Xing, Q.-Y. Hu, S.-H. Li, H.-Y. Chen, T.-M. Zhang, G.-M. Jin, Y.-X. Luo, Yu. Penionzhkevich, Yu. Gangrsky E.A. Yakushev, V.M. Gorozhankin, O. Dragoun, A. Kovalik, A.F. Novgorodov, M. Rysavy, A. Shpalek 2000 2000Ah02 2000An14 PRVCA NATUA 61, 405, 44301 430 2000As.A AnRpt JAERI 2000Be42 EPJAA 8, 307 2000Bl01 PRLTA 84, 1116 2000Br63 PYLBB 495, 63 2000Ca.A 2000Ch07 Th.-Valencia PRVCA 61, 44309 2000Da07 PYLBB 476, 213 2000Da27 PRVCA 62, 45501 2000Di18 PRVCA 62, 34316 2000Fy01 NUPAB 677, 38 2000Ge01 NUPAB 662, 3 13 I. Ahmad, R.R. Chasman, P.R. Fields A.N. Andreyev, M. Huyse, P. Van Duppen, L. Weissman, D. Ackermann, J. Gerl, F.P. Heßberger, S. Hofmann, A. Kleinböhl, G. Münzenberg, S. Reshitko, C. Schlegel, H. Schaffner, P. Cagarda, M. Matos, S. Saro, A. Keenan, C. Moore, C.D. O’Leary, R.D. Page, M. Taylor, H. Kettunen, M. Leino, A. Lavrentiev, R. Wyss, K. Heyde M. Asai, K. Tsukada, S. Ichikawa, H. Haba, A. Osa, Y. Nagame, S. Goto, M. Sakama, Y. Kojima, M. Shibata, K. Akiyama, A. Toyoshima D. Beck, F. Ames, G. Audi, G. Bollen, F. Herfurth, H.-J. Kluge, A. Kohl, M. König, D. Lunney, I. Martel, R.B. Moore, H. Raimbault-Hartmann, E. Schark, S. Schwarz, M. de Saint Simon, J. Szerypo, ISOLDE B. Blank, M. Chartier, S. Czajkowski, J. Giovinazzo, M.S. Pravikoff, J.C. Thomas, G. de France, F. de Oliviera Santos, M. Lewitowicz, C. Borcea, R. Grzywacz, Z. Janas, M. Pfützner V.B. Brudanin, N.I. Rukhadze, Ch. Briançon, V.G. Egorov, V.E. Kovalenko, A. Kovalik, A.V. Salamatin, I. Štekl, V.V. Tsupko-Sitnikov, Ts. Vylov, P. Čermák Cano-Ott C. Chandler, P.H. Regan, B. Blank, C.J. Pearson, A.M. Bruce, W.N. Catford, N. Curtis, S. Czajkowski, Ph. Dessagne, A. Fleury, W. Gelletly, J. Giovinazzo, R. Grzywacz, Z. Janas, M. Lewitowicz, C. Marchand, Ch. Miehe, N.A. Orr, R.D. Page, M.S. Pravikoff, A.T. Reed, M.G. SaintLaurent, S.M. Vincent, R. Wadsworth, D.D. Warner, J.S. Winfield, F. Xu J.M. Daugas, R. Grzywacz, M. Lewitowicz, L. Achouri, J.C. Angélique, D. Baiborodin, K. Bennaceur, R. Bentida, R. Béraud, C. Borcea, C. Bingham, W.N. Catford, A. Emsallem, G. de France, H. Grawe, K.L. Jones, R.C. Lemmon, M.J. Lopez Jimenez, F. Nowacki, F. de Oliveira Santos, M. Pfützner, P.H. Regan, K. Rykaczewski, J.E. Sauvestre, M. Sawicka, G. Sletten, M. Stanoiu F.A. Danevich, A. Sh. Georgadze, V.V. Kobychev, B.N. Kropivyansky, A.S. Nikolaiko, O.A. Ponkratenko, V.I. Tretyak, S. Yu. Zdesenko, Yu. G. Zdesenko, P.G. Bizzeti, T.F. Fazzini, P.R. Maurenzi K.Y. Ding, J.A. Cizewski, D. Seweryniak, H. Amro, M.P. Carpenter, C.N. Davids, N. Fotiades, R.V.F. Janssens, T. Lauritsen, C.J. Lister, D. Nisius, P. Reiter, J. Uusitalo, I. Wiedenhöver, A.O. Macchiavelli H.O.U. Fynbo, M.J.G. Borge, L. Axelsson, J. Äystö, U.C. Bergmann, L.M. Fraile, A. Honkanen, P. Hornshøj, Y. Jading, A. Jokinen, B. Jonson, I. Martel, I. Mukha, T. Nilsson, G. Nyman, M. Oinonen, I. Piqueras, K. Riisager, T. Siiskonen, M.H. Smedberg, O. Tengblad, J. Thaysen, F. Wenander, ISOLDE L. Genilloud, H.G. Börner, F. Corminboeuf, Ch. Doll, S. Drissi, M. Jentschel, J. Jolie, J. Kern, H. Lehmann, N. Warr, and erratum NUPAB 669(2000)407 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 2000Gi01 PRVCA 61, 14308 2000Ha55 PRVCA 62, 54301 2000He17 EPJAA 8, 521 2000Hu17 PRVCA 62, 64315 2000Je09 PRVCA 62, 21302 2000Jo18 EPJAA 9, 9 2000Kr.A 2000La25 PrvCom PRVCA GAu 61, Jun 67603 2000La34 PRVCA 62, 64307 2000Li37 PRVCA 2000Ma62 PRVCA 62, 62, 47303 34308 2000Ma65 EPJAA 8, 295 2000Ma95 PRVCA 62, 57303 2000Me.A PrvCom 2000Mu10 PRVCA AHW 61, Sep 54308 2000Ni02 2000Oi02 PRVCA PRVCA 61, 61, 34309 35801 2000Ol01 PRLTA 84, 4056 2000Pi15 PRVCA 62, 54317 665 T.N. Ginter, J.C. Batchelder, C.R. Bingham, C.J. Gross, R. Grzywacz, J.H. Hamilton, Z. Janas, M. Karny, S.H. Kim, J.F. Mas, J.W. McConnell, A. Piechaczek, A.V. Ramayya, K. Rykaczewski, P.B. Semmes, J. Szerypo, K.S. Toth, R. Wadsworth, C.-H. Yu, E.F. Zganjar M. Hannawald, K.-L. Kratz, B. Pfeiffer, W.B. Walters, V.N. Fedoseyev, V.I. Mishin, W.F. Mueller, H. Schatz, J. Van Roosbroeck, U. Köster, V. Sebastian, H.L. Ravn, ISOLDE F.P. Heßberger, S. Hofmann, D. Ackermann, V. Ninov, M. Leino, S. Saro, A. Andreyev, A. Lavrentev, A.G. Popeko, A.V. Yeremin, and erratum EPJAA 9(2000)433 Z. Hu, L. Batist, J. Agramunt, A. Algora, B.A. Brown, D. Cano-Ott, R. Collatz, A. Gadea, M. Gierlik, M. Górska, H. Grawe, M. Hellström, Z. Janas, M. Karny, R. Kirchner, F. Moroz, A. Plochocki, M. Rejmund, E. Roeckl, B. Rubio, M. Shibata, J. Szerypo, J.L. Tain, V. Wittmann D.G. Jenkins, M. Muikku, P.T. Greenlees, K. Hauschild, K. Helariutta, P.M. Jones, R. Julin, S. Juutinen, H. Kankaanpaa, N.S. Kelsall, H. Kettunen, P. Kuusiniemi, M. Leino, C.J. Moore, P. Nieminen, C.D. O’Leary, R.D. Page, P. Rakhila, W. Reviol, M.J. Taylor, J. Uusitalo, R. Wadsworth A. Jokinen, J.C. Wang, J. Äystö, P. Dendooven, S. Nummela, J. Huikari, V. Kolhinen, A. Nieminen, K. Peräjärvi, S. Rinta-Antila K.-L. Kratz, B. Pfeiffer C.A. Laue, K.E. Gregorich, R. Sudowe, J.L. Adams, M.R. Lane, D.M. Lee, C.A. McGrath, D.A. Shaughnessy, D.A. Strellis, E.R. Sylwester, P.A. Wilk, D.C. Hoffman Yu. A. Lazarev, Yu. V. Lobanov, Yu. Ts. Oganessian, V.K. Utyonkov, F. Sh. Abdullin, A.N. Polyakov, J. Rigol, I.V. Shirokovsky, Yu. S. Tsyganov, S. Iliev, V.G. Subbotin, A.M. Sukhov, G.V. Buklanov, A.N. Mezentsev, K. Subotic, K.J. Moody, N.J. Stoyer, J.F. Wild, R.W. Lougheed C.F. Liang, P. Paris, R.K. Sheline K. Markenroth, L. Axelsson, S. Baxter, M.J.G. Borge, C. Donzaud, S. Fayans, H.O.U. Fynbo, V.Z. Goldberg, S. Grévy, D. GuillemaudMueller, B. Jonson, K.-M. Källman, S. Leenhardt, M. Lewitowicz, T. Lönnroth, P. Manngøard, I. Martel, A.C. Mueller, I. Mukha, T. Nilsson, G. Nyman, N.A. Orr, K. Riisager, G.V. Rogachev, M.-G. Saint-Laurent, I.N. Serikov, N.B. Shul’gina, O. Sorlin, M. Steiner, O. Tengblad, M. Thoennessen, E. Tryggestad, W.H. Trzaska, F. Wenander, J.S. Winfield, R. Wolski O.N. Malyshev, A.V. Belozerov, M.L. Chelnokov, V.I. Chepigin, V.A. Gorshkov, A.P. Kabachenko, A.G. Popeko, J. Rohach, R.N. Sagaidak, A.V. Yeremin, S.I. Mulgin, S.V. Zhdanov H. Mahmud, C.N. Davids, P.J. Woods, T. Davinson, D.J. Henderson, R.J. Irvine, D. Seweryniak, W.B. Walters K.A. Mezilev, B. Fogelberg, V.I. Isakov, H. Mach W.F. Mueller, B. Bruyneel, S. Franchoo, M. Huyse, J. Kurpeta, K. Kruglov, Y. Kudryavtsev, N.V.S.V. Prasad, R. Raabe, I. Reusen, P. Van Duppen, J. Van Roosbroeck, L. Vermeeren, L. Weissman, Z. Janas, M. Karny, T. Kszczot, A. Plochocki, K.-L. Kratz, B. Pfeiffer, H. Grawe, U. Köster, P. Thirolf, W.B. Walters K. Nishio, H. Ikezoe, S. Mitsuoka, J. Lu M. Oinonen, J. Äystö, A. Jokinen, P. Baumann, F. Didierjean, A. Huck, A. Knipper, M. Ramdhane, G. Walter, M. Huyse, P. Van Duppen, G. Marguier, Yu. Novikov, A. Popov, D.M. Seliverstov, H. Schatz, ISOLDE J.M. Oliveira, Jr., A. Lépine-Szily, H.G. Bohlen, A.N. Ostrowski, R. Lichtenthäler, A. Di Pietro, A.M. Laird, G.F. Lima, L. Maunoury, F. de Oliveira Santos, P. Roussel-Chomaz, H. Savajols, W. Trinder, A.C.C. Villari, A. de Vismes A. Piechaczek, E.F. Zganjar, J.C. Batchelder, B.D. MacDonald, W.D. Kulp, S.D. Paul, R. Terry, J.L. Wood 666 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 2000Ra23 NUPAB 677, 75 2000Re03 PRLTA 84, 2104 2000Ri14 PRLTA 85, 1392 2000Sa21 PRLTA 84, 5062 2000Sa52 EPJAA 9, 303 2000Sc31 EPJAA 8, 303 2000Sm06 JPGPE 26, 787 2000So11 PHSTB T88, 2000We.A AnRpt GSI 153 10 2000Wi15 PRLTA 85, 2697 2000Xu02 2000Xu08 PRVCA EPJAA 61, 8, 67308 435 T. Radon, H. Geissel, G. Münzenberg, B. Franzke, Th. Kerscher, F. Nolden, Yu. N. Novikov, Z. Patyk, C. Scheidenberger, F. Attallah, K. Beckert, T. Beha, F. Bosch, H. Eickhoff, M. Falch, Y. Fujita, M. Hausmann, F. Herfurth, H. Irnich, H.C. Jung, O. Klepper, C. Kozhuharov, Yu. A. Litvinov, K.E.G. Löbner, F. Nickel, H. Reich, W. Schwab, B. Schlitt, M. Steck, K. Sümmerer, T. Winkler, H. Wollnik J.J. Ressler, A. Piechaczek, W.B. Walters, A. Aprahamian, M. Wiescher, J.C. Batchelder, C.R. Bingham, D.S. Brenner, T.N. Ginter, C.J. Gross, R. Grzywacz, D. Kulp, B. MacDonald, W. Reviol, J. Rikovska, K. Rykaczewski, J.A. Winger, E.F. Zganjar J. Rikovska, T. Giles, N.J. Stone, K. van Esbroeck, G. White, A. Wöhr, M. Veskovic, I.S. Towner, P.F. Mantica, J.I. Prisciandaro, D.J. Morrissey, V.N. Fedoseyev, V.I. Mishin, U. Köster, W.B. Walters, NICOLE, ISOLDE F. Sarazin, H. Savajols, W. Mittig, F. Nowacki, N.A. Orr, Z. Ren, P. Roussel-Chomaz, G. Auger, D. Baiborodin, A.V. Belozyorov, C. Borcea, E. Caurier, Z. Dlouhý, A. Gillibert, A.S. Lalleman, M. Lewitowicz, S.M. Lukyanov, F. de Oliveira, Y.E. Penionzhkevich, D. Ridikas, H. Sakuraı̈, O. Tarasov, A. de Vismes M. Sakama, K. Tsukada, M. Asai, S. Ichikawa, H. Haba, S. Goto, Y. Oura, I. Nishinaka, Y. Nagame, M. Shibata, Y. Kojima, K. Kawade, M. Ebihara, H. Nakahara K. Schmidt, C. Mazzocchi, R. Borcea, J. Döring, S. Galanopoulos, M. Górska, H. Grawe, S. Harissopulos, M. Hellström, Z. Janas, R. Kirchner, G. Kriembardis, M. La Commara, A.N. Ostrowski, G. Rainovski, E. Roeckl M.B. Smith, R. Chapman, J.F.C. Cocks, K.-M. Spohr, O. Dorvaux, K. Helariutta, P.M. Jones, R. Julin, S. Juutinen, H. Kankaanpaa, H. Kettunen, P. Kuusiniemi, Y. Le Coz, M. Leino, D.J. Middleton, M. Muikku, P. Nieminen, P. Rahkila, A. Savelius G.A. Souliotis E. Wefers, T. Faestermann, R. Schneider, A. Stolz, K. Sümerrer, J. Friese, H. Geissel, M. Hellström, P. Kienle, H.-J. Körner, M. Münch, G. Münzenberg, P. Thirolf, H. Weick P.A. Wilk, K.E. Gregorich, A. Türler, C.A. Laue, R. Eichler, V. Ninov, J.L. Adams, U.W. Kirbach, M.R. Lane, D.M. Lee, J.B. Patin, D.A. Shaughnessy, D.A. Strellis, H. Nitsche, D.C. Hoffman Y. Xu, S. Yuan, W. Yang, J. He, Z. Li, T. Ma, B. Xiong S. Xu, Y. Xie, Y. Yu, Z. Li, Q. Pan, C. Wang, J. Xing, T. Zhang 2001 2001An11 EPJAA 10, 129 2001Ba12 PRLTA 86, 1454 2001Be53 EPJAA 11, 279 2001Bo11 NUPAB 686, 64 A.N. Andreyev, D. Ackermann, P. Cagarda, J. Gerl, F.P. Heßberger, S. Hofmann, M. Huyse, A. Keenan, H. Kettunen, A. Kleinböhl, A. Lavrentiev, M. Leino, B. Lommel, M. Matos, G. Münzenberg, C.J. Moore, C.D. O’Leary, R.D. Page, S. Reshitko, S. Saro, C. Schlegel, H. Schaffner, M.J. Taylor, P. Van Duppen, L. Weissman, R. Wyss G.C. Ball, S. Bishop, J.A. Behr, G.C. Boisvert, P. Bricault, J. Cerny, J.M. D’Auria, M. Dombsky, J.C. Hardy, V. Iacob, J.R. Leslie, T. Lindner, J.A. Macdonald, H.-B. Mak, D.M. Moltz, J. Powell, G. Savard, I.S. Towner U.C. Bergmann, M.J.G. Borge, J. Cederkäll, C. Forssén, E. Fumero, H.O.U. Fynbo, H. Gausemel, H. Jeppesen, B. Jonson, K. Markenroth, T. Nilsson, G. Nyman, K. Riisager, H. Simon, O. Tengblad, L. Weissman, F. Wenander, K. Wilhelmsen Rolander, ISOLDE R. Bonetti, C. Carbonini, A. Guglielmetti, M. Hussonnois, D. Trubert, C. Le Naour G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 2001Bo54 NUPAB 695, 69 2001Bo59 HYIND 132, 215 2001Br27 2001Ca37 EPJDD PRVCA 15, 64, 181 25802 2001Ca.B AnRpt GSI 2001Ch31 PYLBB 505, 21 2001Da22 NUPAB 694, 375 2001Do08 2001Fr18 2001Ga01 2001Ga20 PRLTA EPJDD PRVCA EPJAA 86, 15, 63, 10, 4259 141 14302 21 2001Ga24 PRVCA 63, 44307 2001Ga59 EPJAA 11, 413 2001Gi01 EPJAA 10, 73 2001Gi10 EPJAA 11, 247 2001Gi17 EPJAA 12, 309 2001Gr07 NUPAB 682, 41c 2001Ha21 NUPAB 686, 591 2001Ha39 NUPAB 688, 578c 2001Ha46 PRLTA 87, 72501 15 667 R. Borcea, J. Äystö, E. Caurier, P. Dendooven, J. Döring, M. Gierlik, M. Górska, H. Grawe, M. Hellström, Z. Janas, A. Jokinen, M. Karny, R. Kirchner, M. La Commara, K. Langanke, G. Martı́nez-Pinedo, P. Mayet, A. Nieminen, F. Nowacki, H. Penttilä, A. Plochocki, M. Rejmund, E. Roeckl, C. Schlegel, K. Schmidt, R. Schwengner, M. Sawicka, and erratum NUPAB 703(2002)889 G. Bollen, F. Ames, G. Audi, D. Beck, J. Dilling, O. Engels, S. Henry, F. Herfurth, A. Kellerbauer, H.-J. Kluge, A. Kohl, E. Lamour, D. Lunney, R.B. Moore, M. Oinonen, C. Scheidenberger, S. Schwarz, G. Sikler, J. Szerypo, C. Weber, ISOLDE S. Brunner, T. Engel, A. Schmitt, G. Werth J.A. Caggiano, D. Bazin, W. Benenson, B. Davids, R. Ibbotson, H. Scheit, B.M. Sherrill, M. Steiner, J. Yurkon, A.F. Zeller, B. Blank, M. Chartier, J. Greene, J.A. Nolen, Jr., A.H. Wuosmaa, M. Bhattacharya, A. Garcı́a, M. Wiescher P. Cagarda„ S. Antalic, D. Ackermann, F.P. Heßberger, S. Hofmann, B. Kindler, J. Kojouharova, B. Lommel, R. Mann, A.G. Popeko, Š. Šáro, J. Uusitalo, A.V. Yeremin L. Chen, B. Blank, B.A. Brown, M. Chartier, A. Galonsky, P.G. Hansen, M. Thoennessen F.A. Danevich, V.V. Kobychev, O.A. Ponkratenko, V.I. Tretyak, Yu. G. Zdesenko G. Douysset, T. Fritioff, C. Carlberg, I. Bergström, M. Björkhage T. Fritioff, C. Carlberg, G. Douysset, R. Schuch, I. Bergström M. Galeazzi, F. Fontanelli, F. Gatti, S. Vitale Z.G. Gan, Z. Qin, H.M. Fan, X.G. Lei, Y.B. Xu, J.J. He, H.Y. Liu, X.L. Wu, J.S. Guo, X.H. Zhou, S.G. Yuan, G.M. Jin J. Garcés Narro, C. Longour, P.H. Regan, B. Blank, C.J. Pearson, M. Lewitowicz, C. Miehé, W. Gelletly, D. Appelbe, L. Axelsson, A.M. Bruce, W.N. Catford, C. Chandler, R.M. Clark, D.M. Cullen, S. Czajkowski, J.M. Daugas, P. Dessagne, A. Fleury, L. Frankland, J. Giovinazzo, B. Greenhalgh, R. Grzywacz, M. Harder, K.L. Jones, N. Kelsall, T. Kszczot, R.D. Page, A.T. Reed, O. Sorlin, R. Wadsworth M. Gaelens, J. Andrzejewski, J. Camps, P. Decrock, M. Huyse, K. Kruglov, W.F. Mueller, A. Piechaczek, N. Severijns, J. Szerypo, G. Vancraeynest, P. Van Duppen, J. Wauters J. Giovinazzo, B. Blank, C. Borcea, M. Chartier, S. Czajkowski, G. de France, R. Grzywacz, Z. Janas, M. Lewitowicz, F. de Oliveira Santos, M. Pfützner, M.S. Pravikoff, J.C. Thomas J. Giovinazzo, B. Blank, C. Borcea, M. Chartier, S. Czajkowski, G. de France, R. Grzywacz, Z. Janas, M. Lewitowicz, F. de Oliveira Santos, M. Pfutzner, M.S. Pravikoff, J.C. Thomas A. Gizon, J. Genevey, C.F. Liang, P. Paris, D. Barnéoud, J. Inchaouh, I. Penev, A. Plochocki R. Grzywacz, C.H. Yu, Z. Janas, S.D. Paul, J.C. Batchelder, C.R. Bingham, T.N. Ginter, C.J. Gross, J. McConnell, M. Lipoglavsek, A. Piechaczek, D.C. Radford, J.J. Ressler, K. Rykaczewski, J. Shergur, W.B. Walters, E.F. Zganjar, C. Baktash, M.P. Carpenter, R.V.F. Janssens, C.E. Svensson, J.C. Waddington, D. Ward, E. Dragulescu T. Hashimoto, K. Nakai, Y. Wakasaya, I. Tanihata, Z. Fulop, H. Kumagai, A. Ozawa, K. Yoshida, R. Goswarmi M. Hannawald, V.N. Fedoseyev, U. Koster, K.-L. Kratz, V.I. Mishin, W.F. Mueller, H.L. Ravn, J. Van Roosbroeck, H. Schatz, V. Sebastian, W.B. Walters, ISOLDE K. Hauschild, M. Rejmund, H. Grawe, E. Caurier, F. Nowacki, F. Becker, Y. Le Coz, W. Korten, J. Döring, M. Górska, K. Schmidt, O. Dorvaux, K. Helariutta, P. Jones, R. Julin, S. Juutinen, H. Kettunen, M. Leino, M. Muikku, P. Nieminen, P. Rahkila, J. Uusitalo, F. Azaiez, M. Belleguic 668 G. Audi et al. / Nuclear Physics A 729 (2003) 337–676 2001Ha66 HYIND 132, 291 2001He29 PRLTA 87, 142501 2001He35 EPJAA 12, 57 2001He36 2001He.A 2001Hi06 PRVAA 64, AnRpt GSI PRVCA 63, 62504 3 65502 2001Ho06 EPJAA 10, 5 2001Ib02 EPJAA 10, 139 2001Ke05 APOBB 32, 989 2001Ke06 PRVCA 63, 44315 2001Ki13 PPNPD 46, 73 2001Kl11 EPJAA 12, 147 2001Kl13 2001Ko44 MPLAE PYLBB 16, 512, 2409 268 2001Ko52 PRLTA 87, 92501 2001Ko.B 2001La31 PrvCom HYIND AHW 132, Aug 315 2001Li17 PRVCA 63, 47307 2001Li44 2001Lu17 PRVCA PRVCA 64, 64, 34310 54311 2001Lu20 HYIND 132, 299 2001Ma08 PRVCA 63, 24613 M. Hausmann, J. Stadlmann, F. Attallah, K. Beckert, P. Beller, F. Bosch, H. Eickhoff, M. Falch, B. Franczak, B. Franzke, H. Geissel, Th. Kerscher, O. Klepper, H.-J. Kluge, C. Kozhuharov, Yu. A. Litvinov, K.E.G. Lobner, G. Munzenberg, N. Nankov, F
