Clifford M. Surko - Publications (3/16)
Table of Contents
I.
II.
III.
IV.
V.
VI.
VII.
Page
Research Articles
Review and Invited Articles
Books & Book Chapters
Refereed Conference Proceedings
Other Conference Proceedings
Popular Articles
Other Work
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16
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A. Primary Published Work
A I. Research Articles
1. Evidence for a New Kind of Energetic Neutral Excitation in Superfluid He, C. M. Surko, and F.
Reif, Phys. Rev. Lett. 20, 582-5 (1968).
2. Investigation of a New Kind of Energetic Neutral Excitation in Superfluid He, C. M. Surko and
F. Reif, Phys. Rev. 175, 229-41 (1968).
3. Spectroscopic Study of Liquid He in the Vacuum Ultraviolet, C. M. Surko G. J. Dick, F. Reif,
W. C. Walker, Phys. Rev. Lett. 23, 482-6 (1969).
4. Spectroscopic Study of the Luminescence of Liquid He in the Vacuum Ultraviolet, C. M.
Surko, R. E. Packard, G. J. Dick, F. Reif, Phys. Rev. Lett. 24, 657-9 (1970).
5. Ultraviolet Emission Spectra of Electron Excited Solid and Liquid Neon, R. E. Packard, F.
Reif and C. M. Surko, Phys. Rev. Lett. 25, 1435-39 (1970).
6. Relation of Collision-Induced Light Scattering in Rare Gases to Atomic Collision Parameters,
J. I. Gersten, R. E. Slusher, C. M. Surko, Phys. Rev. Lett. 25, 1739-42 (1970).
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4
7. Raman Scattering from Condensed Phases of He and He , R. E. Slusher and C. M. Surko,
Phys. Rev. Lett. 27, 1699-1702 (1971).
8. 10.6m Laser Scattering from Cyclotron Harmonic Waves in a Plasma, C. M. Surko, R. E.
Slusher, D. R. Moler, M. Porkolab, Phys. Rev. Lett. 29, 81-4 (1972).
9. Two-Roton Raman Scattering in He -He Solutions, C. M. Surko and R. E. Slusher, Phys.
Rev. Lett. 30, 1111-14 (1973).
10. Raman Scattering from Condensed Phases of Helium: I Optic Phonons in Solid Helium, R. E.
Slusher, C. M. Surko, Phys. Rev. B13, 1086-94 (1976).
11. Raman Spectra of Condensed Phases of Helium: II Excitation of More than One Phonon, C.
M. Surko and R. E. Slusher, Phys. Rev. B13, 1095-104 (1976).
12. Study of Current-Driven Ion-Acoustic Instability Using CO2 -Laser Scattering, R. E. Slusher,
C. M. Surko, D. R. Moler, M. Porkolab Phys. Rev. Lett. 36, 674-7 (1976).
13. Study of the Density Fluctuations in ATC Tokamak Using CO2 Laser Scattering, C. M. Surko
and R. E. Slusher, Phys. Rev. Lett. 37, 1747-50 (1976).
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14. Study of Density Fluctuations in the Alcator Tokamak Using CO2 Laser Scattering, R. E.
Slusher and C. M. Surko, Phys. Rev. Lett. 40, 400-3 (1978).
15. Time-Resolved Reflectivity of Ion-Implanted Silicon During Laser Annealing, D. H. Auston, C.
M. Surko, T. N. C. Venkatesan, R. E. Slusher and J. A. Golovchenko, Appl. Phys. Lett. 33,
437-40 (1978).
16. CW Argon-Ion Laser Annealing of Ion-Implanted Silicon, D. H. Auston, J. A. Golovchenko, P.
R. Smith and C. M. Surko, Appl. Phys. Lett. 33, 539-41 (1978).
17. Study of Density Fluctuations in Plasmas by the Heterodyne Detection of Small-Angle CO2
Laser Scattering, R. E. Slusher and C. M. Surko, Phys. Fluids 23 (3), 472-90 (1980).
18. Calculation of the Dynamics of Surface Melting During Laser Annealing, C. M. Surko, A. L.
Simons, D. H. Auston, J. A. Golovchenko, and R. E. Slusher, Appl. Phys. Lett. 34, 635-7
(1979).
19. Dynamics of Q-Switched Laser Annealing, D. H. Auston, J. A. Golovchenko, A. L. Simons,
and C. M. Surko, Appl. Phys. Lett. 34, 777-9 (1979).
20. Study of Surface Crystallinity and Stoichiometry of Laser-Annealed GaAs Using TimeResolved Reflectivity and Channelling, T. N. C. Venkatesan, D. H. Auston, J. A. Golovchenko
and C. M. Surko, Appl. Phys. Lett. 35, 88-90 (1979).
21. Study of Driven Lower Hybrid Waves in the Alcator Tokamak Using CO2 Laser Scattering,
C. M. Surko, R. E. Slusher, J. J. Schuss, R. R. Parker, I. H. Hutchinson, D. Overskei and L.
S. Scaturro, Phys. Rev. Lett. 43 (14), 1016-19 (1979).
22. Study of Plasma Density Fluctuations by the Correlation of Crossed CO2 Laser Beams, C. M.
Surko and R. E. Slusher, Phys. Fluids 23, 2425-39 (1980).
23. Study of Driven Lower Hybrid Waves in the Alcator A Tokamak Using CO2 Laser Scattering,
R. E. Slusher, C. M. Surko, J. J. Schuss, R. R. Parker, I. H. Hutchinson, D. Overskei and L.
S. Scaturro, Phys. Fluids 25, 457-72 (1982).
24. The Ion Feature in a Laboratory Plasma: Theory and Experiment Using CO2 Laser
Scattering, D. Gresillon, J. Olivain, A. Truc, T. Lehner and C. M. Surko, Phys. Fluids 27,
1030-40 (1984).
25. Study of High-Beta Magnetohydrodynamic Modes and Fast-Ion Losses in PDX, K. McGuire
and other authors from Princeton University, R. E. Slusher, C. M. Surko and J. Valley, Phys.
Rev. Lett. 50, 891-95 (1983).
26. Initial Results from the Scoop Limiter Experiment in PDX, R. Budney and other authors from
Princeton University, R. E. Slusher, C. M. Surko, J. Valley, J. Nucl. Matter 121, 294-303
(1984).
27. New Fluctuations Phenomena in the H-Mode Regime of PDX Tokamak Plasmas, R. E.
Slusher, C. M. Surko, J. Valley, T. Crowley, E. Mazzucato and K. McGuire, Phys. Rev. Lett.
53, 667-70 (1984).
28. Non-Chaotic Rayleigh-Benard Convection with Four and Five Incommen-surate Frequencies,
R. W. Walden, P. Kolodner, A. Passner and C. M. Surko, Phys. Rev. Lett. 53, 242-45 (1984).
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29. Observation of Parametric Decay Using CO2 Laser Scattering in the Alcator C Tokamak, Y.
Takese, R. L. Watterson, M. Porkolab, C. L. Fiore, R. E. Slusher and C. M. Surko, Phys. Rev.
Lett. 53, 274-7 (1984).
30. Direct Observation of the Structure of Global Alfven Eigenmodes in a Tokamak Plasma, T. E.
Evans and other authors from Univ. of Texas at Austin, and C. M. Surko, Phys. Rev. Lett. 53,
1743-46 (1984).
31. Attainment of High Confinement in Neutral Beam Heated Divertor Discharges in the PDX
Tokamak, S. M. Kaye and other authors from Princeton University, R. E. Slusher, C. M.
Surko and J. Valley, J. Nuclear Materials 121, 115-25 (1984).
32. Spectrum and Propagation of Lower Hybrid Waves in the Alcator C Tokamak, R. L.
Watterson, Y. Takase, P. T. Bonoli, M. Porkolab, R. E. Slusher, C. M. Surko, Phys. Fluids
(Rapid Communications) 28, 2622-24 (1985).
33. Light Scattering Studies of the Ion-Acoustic Instability in a Positive Column Plasma, R. E.
Slusher, C. M. Surko, and C. A. Murray, J. of Statistical Physics 35, 755-67 (1985).
34. Low-Frequency Density Fluctuations in the Alcator C Tokamak, R. L.
Slusher, C. M. Surko, Phys. Fluids 28, 2857-67 (1985).
Watterson, R. E.
35. Observation of Parametric Instabilities in the Lower Hybrid Range of Frequencies in the
High-Density Tokamak, Y. Takase, M. Porkolab, J. J. Schuss, R. L. Watterson, C. L. Fiore, R.
E. Slusher and C. M. Surko, Phys. Fluids 28, 983-94 (1985).
36. Traveling Waves and Chaos in Convection in Binary Fluid Mixtures, R. W. Walden, P.
Kolodner, A. Passner and C. M. Surko, Phys. Rev. Lett. 55, 496-9 (1985).
37. Rayleigh-Benard Convection in an Intermediate-Aspect-Ratio Rectangular Container, P.
Kolodner, R. W. Walden, A. Passner and C. M. Surko, J. Fluid Mech. 163, 195-226 (1986).
38. Finite-Amplitude Traveling Wave Convection in Binary Fluid Mixtures, C. M. Surko, P.
Kolodner, A. Passner and R. W. Walden, Physica 16D, 220 (1986).
39. Use of Positrons to Study Transport in Tokamak Plasmas, C. M. Surko, M. Leventhal, W. S.
Crane, A. Passner, F. Wysocki, T. J. Murphy, J. Strachan, and W. L. Rowan, Rev. Sci.
Instrum. 57, 1862-67 (1986).
40. The Onset of Oscillatory Convection in a Binary Fluid, P. Kolodner, A. Passner, C. M. Surko
and R. W. Walden, Phys. Rev. Lett. 56, 2621-24 (1986).
41. The Transition to Finite-Amplitude Traveling-Wave Convection in Binary Fluid Mixtures, P.
Kolodner, A. Passner, H. L. Williams and C. M. Surko, Nuclear Phys. B 2, 97-108 (1987).
42. Scale Length of Microturbulence in Tokamak Plasmas, C. M. Surko, Comments in Plasma
Physics and Controlled Fusion 10, 265-9 (1987).
43. Heat Transport for Parallel-Roll Convection in a Rectangular Container, R. W. Walden, P.
Kolodner, A. Passner and C. M. Surko, J. Fluid Mech. 185, 205-33 (1987).
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44. Oscillatory Traveling-Wave Convection in a Finite Container, C. M. Surko and P. Kolodner,
Phys. Rev. Lett. 58, 2055-58 (1987).
45. Pulses of Oscillatory Convection, P. Kolodner, C. M. Surko, A. Passner and H. L. Williams,
Phys. Rev. A36, 2499-502 (1987).
46. Traveling-Wave Convection in a Binary Fluid Mixture in an Annulus, P. R. Kolodner, D.
Bensimon and C. M. Surko, Phys. Rev. Lett. 60, 1723-26 (1988).
47. Accumulation and Storage of Low Energy Positrons, F. J. Wysocki, M. Leventhal, A. Passner
and C. M. Surko, Hyperfine Interactions 44, 185-200 (1988).
48. Weakly Nonlinear Traveling-Wave Convection, P. Kolodner, C. M. Surko, Phys. Rev. Lett. 61,
842-45 (1988).
49. Bound States of Positrons and Large Molecules, C. M. Surko, A. Passner, M. Leventhal and
F. J. Wysocki, Phys. Rev. Lett. 61, 1831-34 (1988).
50. Dynamics of Traveling Waves Near the Onset of Convection in Binary Fluid Mixtures, P. R.
Kolodner, C. M. Surko and H. L. Williams, Physica D37, 319-33 (1989).
51. A Positron Plasma in the Laboratory, C. M. Surko, M. Leventhal and A. Passner, Phys. Rev.
Lett. 62, 901-04 (1989).
52. Ion Production by Positron-Molecule Resonances, A. Passner, C. M. Surko, M. Leventhal
and A. P. Mills, Jr., Phys. Rev. A 39, 3706-09 (1989).
53. Positron Molecule Bound States and Positive Ion Production, M. Leventhal, A. Passner and
C. M. Surko, in Annihilation in Gases and Galaxies, R. J. Drachman, ed., NASA Conf. Pub.
Number 3058, 273-84 (1990).
54. Competing and Coexisting Dynamical States of Traveling-Wave Convection in an Annulus, D.
Bensimon, P. Kolodner, C. M. Surko, H. L. Williams and V. Croquette, J. Fluid Mech. 217,
441-67 (1990).
55. Patterns and Dynamics in Traveling-Wave Convection, C. M. Surko and P. Kolodner, in NonLinear Structures in Physical Systems, L. Lam and H. C. Morris, eds., Springer Verlag, New
York, 149-65 (1990).
56. Transition from Traveling-Wave to Stationary Convection in Fluid Mixtures, D. R. Ohlsen, S.
Y. Yamamoto, C. M. Surko and P. Kolodner, Phys. Rev. Lett. 65, 1431-34 (1990).
57. Annihilation of Positrons in Xenon Gas, T. J. Murphy and C. M. Surko, J. Phys. B23, L727-32
(1990).
58. Pinning and Long-Time-Scale Behavior in Traveling-Wave Convection, D. R. Ohlsen, S. Y.
Yamamoto, C. M. Surko and P. Kolodner, J. of Statistical Physics 64, 903-12 (1991).
59. Confined States of Traveling-Wave Convection, C. M. Surko, D. R. Ohlsen, S. Y. Yamamoto
and P. Kolodner, Phys. Rev. A43, 7101-04 (1991).
60. Concentration Field in Traveling-Wave and Stationary Convection in Fluid Mixtures, K. D.
Eaton, D. R. Ohlsen, S. Y. Yamamoto, and C. M. Surko, Phys. Rev. A43, 7105-08 (1991).
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61. Annihilation of Positrons on Organic Molecules, T. J. Murphy and C. M. Surko, Phys. Rev.
Lett. 67, 2954-57 (1991).
62. Annihilation Gamma-Ray Spectra from Positron-Molecule Interactions, S. Tang, M. D. Tinkle,
R. G. Greaves, and C. M. Surko, Phys. Rev. Lett. 68, 3793-96 (1992).
63. Eckhaus Instability for Traveling Waves, G. W. Baxter, K. D. Eaton and C. M. Surko, Phys.
Rev. A46, R1735-38 (1992).
64. Positron Trapping in an Electrostatic Well by Inelastic Collisions with Nitrogen Molecules, T.
J. Murphy and C. M. Surko, Phys. Rev. A46, 5696-5705 (1992).
65. Angular Dependence of Positronium Formation in Molecular Hydrogen, S. Tang and C. M
Surko, Phys. Rev. A47, R743-46 (1993).
66. Use of Traps to Study Positron Annihilation in Astrophysically Relevant Media, C. M. Surko,
R. G. Greaves, and M. Leventhal, Hyperfine Interactions 81, 239-52 (1993).
67. Annihilation Rates of Positrons on Aromatic Molecules, K. Iwata, R. G. Greaves, and C. M.
Surko, Hyperfine Interactions 89, 271-8 (1994).
68. Low-order Modes as Diagnostics of Spheroidal Nonneutral Plasmas, M. Tinkle, R. G.
Greaves, C. M. Surko, R. L. Spencer and G. W. Mason, Phys. Rev. Lett. 72, 352-5 (1994).
69. Ion Production by Positron-Molecule Resonances, G. L. Glish, R. G. Greaves, S. A. McLucky,
L. D. Hulett, C. M. Surko, J. Xu and D. L. Donohue, Phys. Rev. A 49, 2389-93 (1994).
70. Measurements of Positron Annihilation Rates on Molecules, K. Iwata, R. G. Greaves, T. J.
Murphy, M. D. Tinkle and C. M. Surko, Phys. Rev. A, 51, 473-87 (1995).
71. Modes of a Pure Ion Plasma at the Brillouin Limit, R. G. Greaves, M. D. Tinkle and C. M.
Surko, Phys. Rev. Lett. 74, 90-3 (1995).
72. Low-order Longitudinal Modes of Single-Component Plasmas, M. D. Tinkle, R. G. Greaves,
and C. M. Surko, Physics of Plasmas 2, 2880-94 (1995).
73. Pulse Propagation in the Catalytic Oxidation of Carbon Monoxide on Platinum, S. Y.
Yamamoto, C. M. Surko, M. B. Maple, and R. K. Pina, Phys. Rev. Lett. 74, 4071-74 (1995).
74. Spatio-temporal Dynamics of Oscillatory Heterogeneous Catalysis: CO Oxidation on
Platinum, S. Y. Yamamoto, C. M. Surko, M. B. Maple, and R. K. Pina, J. Chem. Phys. 102,
8614-25 (1995).
75. Spatial Coupling in Heterogeneous Catalysis, S. Y. Yamamoto, C. M. Surko, and M. B.
Maple, J. Chem. Phys. 103, 8209-15 (1995).
76. An Electron-Positron Beam-Plasma Experiment, R. G. Greaves and C. M. Surko, Phys. Rev.
Lett. 75, 3846-49 (1995).
77. Transition Between Curved and Angular Textures in Binary Fluid Convection, Arthur LaPorta,
K. D. Eaton, and C. M. Surko, Phys. Rev. E53, 570-1 (1996).
78. Modes of Spheroidal Ion Plasmas at the Brillouin Limit, M. D. Tinkle, R. G. Greaves, and C.
M. Surko, Phys. Plasmas, 3, 749-58 (1996).
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79. Dynamics of Two-Dimensional Traveling-Wave Convection Patterns, Arthur La Porta and C.
M. Surko, Phys. Rev. E 53, 5916-34 (1996).
80. Positron Annihilation in a Simulated Interstellar Medium, K. Iwata, R. G. Greaves and C. M.
Surko, Can J. Phys., 74 407-10 (1996).
81. Solid Neon Moderator for Positron Trapping Experiments, R. G. Greaves and C. M. Surko,
Can J. Phys. 74, 445-48 (1996).
82. Annihilation in Low Energy Positron-Helium Scattering, P. Van Reeth, J. W. Humberston, K.
Iwata, R. G. Greaves, and C. M. Surko, J. of Physics B 29, L465-71 (1996).
83. Phase Defects as a Measure of Disorder in Traveling-Wave Convection, A. La Porta and C.
M. Surko, Phys. Rev. Lett. 77, 2678-81 (1996).
84. Temperature Dependence of Positron Annihilation Rates in Noble Gases, C. Kurz, R. G.
Greaves, and C. M. Surko, Phys. Rev. Lett. 77, 2929-32 (1996).
85. Stored Positrons for Antihydrogen Production, C. M. Surko, R. G. Greaves, and M. Charlton,
Hyperfine Interactions 109, 181-8 (1997).
86. Antihydrogen Production and Precision Experiments, M. Holzscheiter and 53 other authors,
including C. M. Surko, Nucl. Phys. B (Proc Suppl.) 56A, 336-48 (1997).
87. Gamma-ray Spectra From Positron Annihilation on Atoms and Molecules, K. Iwata, R. G.
Greaves, and C. M. Surko, Phys. Rev. A 55, 3586-604 (1997).
88. Phase Defects and Spatiotemporal Disorder in Traveling-Wave Convection Patterns, A. La
Porta and C. M. Surko, Phys. Rev. E 56, 5351-66 (19971
89. Creation of a Monoenergetic Pulsed Positron Beam, S. J. Gilbert, C. Kurz, R. G. Greaves,
and C. M. Surko, Appl. Phys. Lett. 70, 1944-46 (1997).
90. Reflection of Nonlinear Waves from a Domain Boundary, A. La Porta and C. M. Surko, Phys.
Rev. E55, R6327-30 (1997).
91. Positron Annihilation with Inner-Shell Electrons in Noble Gas Atoms, K. Iwata, G. Gribakin, R.
G. Greaves, and C. M. Surko, Phys. Rev. Lett. 79, 39-42 (1997).
92. Quantitative Characterization of 2D Traveling-Wave Patterns, A. La Porta and C. M. Surko,
Physica D 123, 21-35 (1998).
93. Effects of Local Reactant Concentration on Perturbations in Oscillatory Catalysis, C. D. Lund,
C. M. Surko, M. B. Maple, and S. Y. Yamamoto, J. Chem. Phys. 108, 5565-70 (1998);
erratum 112, 1619 (2000).
94. New Source of Ultra-cold Positron and Electron Beams, C. Kurz, S. J. Gilbert, R. G. Greaves
and C. M. Surko, J. Nuclear Instruments and Methods B 143, 188-94 (1998).
95. Convective Instability in Mixture Heated from Above, A. La Porta and C. M. Surko, Phys. Rev.
Lett. 80, 3759-62 (1998).
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96. Positron Scattering from Atoms and Molecules at Low Energies, S. J. Gilbert, R.G. Greaves,
and C. M. Surko, Phys. Rev. Lett. 82, 5032-35 (1999).
97. Positron Annihilation on Large Molecules, K. Iwata, G. F. Gribakin, R. G. Greaves, C. Kurz,
and C. M. Surko, Phys. Rev. A 61, 220719; 1-17 (2000).
98. Predicting the Motion of Phase Defects in a Traveling-Wave Convection Pattern, A. La Porta
and C. M. Surko, Physica D 139, 177-85 (2000).
99. Model Discrimination in Oscillatory CO Oxidation on Platinum Catalysts at Atmospheric
Pressure, C. D. Lund, C. M. Surko, M. B. Maple, and Y. Yamamoto, Surface 459, 413-25
(2000).
100. Atomic and Molecular Physics Using Positron Accumulation Techniques -- Summary and a
Look to the Future, C. M. Surko, R. G. Greaves, K. Iwata, and S. J. Gilbert, Nuclear
Instruments and Methods in Physics Research B 171, 2-16 (2000).
101. Low-energy Positron Scattering from Atoms and Molecules using Positron Accumulation
Techniques, S. J. Gilbert, J. Sullivan, R. G. Greaves, and C. M. Surko, Nuclear Instruments
and Methods in Physics Research B 171, 81-95 (2000).
102. Inward Transport and Compression of a Positron Plasma by a Rotating Electric Field, R. G.
Greaves and C. M. Surko, Phys. Rev. Lett., 85, 1883-86 (2000).
103. Excitation of Molecular Vibrations by Positron Impact, J. P. Sullivan, S. J. Gilbert and C. M.
Surko, Phys. Rev. Lett., 86, 1494-97 (2001).
104. Positron Traps and Trap-based Beams: Status and Future Prospects, C. M. Surko, Materials
Science Forum 363 – 365, 624-28 (2001).
105. Effects of Lateral Boundaries on Traveling-wave Dynamics in Binary Fluid Convection, C. M.
Aegerter and C. M. Surko, Phys. Rev. E 63, 046301-1-12 (2001).
106. Radial Compression and Inward Transport of Positron Plasmas Using a Rotating Electric
Field, R. G. Greaves, and C.M. Surko, Phys. Plas., 8, 1879-85 (2001).
107. An Electron-Positron Beam-Plasma Instability, S.J. Gilbert, D. H. E. Dubin, R. G. Greaves,
and C.M. Surko, Phys. Plas. 8, 4982-94 (2001).
108. Excitation of Electronic States of Ar, H2, and N2 by Positron Impact, J. P. Sullivan, J. P.
Marler, S. J. Gilbert, S. J. Buckman, and C. M. Surko, Phys. Rev. Lett. 87, 073201-1-4
(2001).
109. Search for Resonances in the Scattering of Low-energy Positrons from Atoms and
Molecules, J. P. Sullivan, S. J. Gilbert, S. J. Buckman and C. M. Surko, J. Phys. B 34, L 46774, (2001).
110. Vibrational-resonance Enhancement of Positron Annihilation in Molecules S. J. Gilbert, L. D.
Barnes, J. P. Sullivan and C. M. Surko, Phys. Rev. Lett. 88, 043201-1-4 (2002).
111. Trap-Based Positron Beams, R. G. Greaves, S. J. Gilbert, and C. M. Surko, Appl. Surface
Sci. 194, 56 - 60 (2002).
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112. Influence of Lateral Boundary Conditions on a Phase-defect Description of Traveling-wave
Convection Patterns, C. M. Aegerter and C. M. Surko, Physica D 166, 155-166 (2002).
113. Low Energy Positron Scattering and Annihilation Studies Using a High Resolution TrapBased Beam, J. P. Sullivan, S. J. Gilbert, J. P. Marler, L. D. Barnes, S. J. Buckman, and C.
M. Surko, Nuclear Instrum. and Meth. For Physics Res. B 192, 3 – 16 (2002).
114. Positron Trapping and the Creation of High-Quality Trap-Based Positron Beams, R. G.
Greaves and C. M. Surko, Nuclear Instrum. and Meth. For Physics Res. B 192, 90 - 96
(2002).
115. Positron Scattering from Atoms and Molecules Using a Magnetized Beam, J. P. Sullivan, S.
J. Gilbert, J. P. Marler, R. G. Greaves, S. J. Buckman, and C. M. Surko, Phys. Rev. A 66,
042708, 1 - 12 (2002).
116. A Multicell Trap to Confine Large Numbers of Positrons, C. M. Surko and R. G. Greaves,
Radiation Physics and Chemistry 68, 419 - 425 (2003).
117. Energy-resolved Positron Annihilation for Molecules, L. D. Barnes, S. J. Gilbert, and C. M.
Surko, Phys. Rev. A 67, 032706, 1 - 11 (2003).
118. Positron Scattering and Annihilation Studies Using a Trap-Based Beam, L. D. Barnes, J. P.
Marler, J. P. Sullivan and C. M. Surko, Proc., Physica Scripta, T110, 280-85 (2004).
119. Experimental Studies of the Interaction of Low-energy Positrons with Atoms and Molecules,
J. P. Marler, L. D. Barnes, S. J. Gilbert, J. P. Sullivan, J. A. Young, and C. M. Surko, Nuclear
Instrum. and Meth. B 221, 84-92 (2004).
120. Ionization and Positronium Formation in Noble Gases, J. P. Marler, J. P. Sullivan, and C. M.
Surko, Phys. Rev. A 71, 022701 - 12 (2005).
121. Torque-balanced High-density Steady States of Single Component Plasmas, J. R. Danielson
and C. M. Surko, Phys. Rev. Lett. 95, 035001 - 4 (2005).
122. Systematic Comparison of Positron and Electron Impact Ionization of the n3 Vibrational Mode
of CF4, J. P. Marler and C. M. Surko, Phys. Rev. A 72, 062702 (2005).
123. Positron-impact Ionization, Positronium Formation and Electronic Excitation Cross Sections
for Diatomic Molecules, J. P. Marler and C. M. Surko, Phys. Rev. A 72 062713 (2005).
124. Radial Compression and Torque-balanced Steady States of Single-Component Plasmas, J.
R. Danielson and C. M. Surko, Phys. Plasmas 13, 055706 (2006).
125. Comparison of Positron-impact Vibrational Excitation Cross Sections with the Born-dipole
Model, J. P. Marler, G. F. Gribakin, and C. M. Surko, Nucl. Instrum. and Meth. B 247, 87 – 91
(2006).
126. Charged Particle Motion in Spatially Varying Electric and Magnetic Fields, J. A. Young and C.
M. Surko, Nucl. Instrum. and Meth. B 247, 147 - 154 (2006).
127. Energy-resolved Positron Annihilation Rates for Molecules, L. D. Barnes, J. A. Young, and C.
M. Surko, Phys. Rev. A 74, 012706, pp. 1 - 10 (2006).
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128. Differential Cross Sections for Positron-Xenon Elastic Scattering, J. P. Marler, C. M. Surko,
R. P. McEachran, and A. D. Stauffer, Phys. Rev. A 73, 064702, pp. 1 - 4 (2006).
129. Plasma Manipulation Techniques for Positron Storage in a Multicell Trap, J. R. Danielson, T.
R. Weber and C. M. Surko, Phys. Plasmas 13, 123502, pp. 1 - 10 (2006).
130. Extraction of Small-Diameter Beams from Single-Component Plasmas, J. R. Danielson, T. R.
Weber and C. M. Surko, Applied Phys. Lett. 90, 081503, pp. 1 - 3 (2007).
131. High-density Fixed Point for Radially Compressed Single-component Plasmas, J. R.
Danielson, C. M. Surko, and T. M. O’Neil, Phys. Rev. Lett. 99, 135005 (2007).
132. Role of Binding Energy in Feshbach-Resonant Positron-molecule Annihilation. J. A. Young
and C. M. Surko, Phys. Rev. Lett. 99, 133201, pp. 1 - 4 (2007).
133. Creation of Finely Focused Particle Beams from Single-component Plasmas, T. R. Weber, J.
R. Danielson and C. M. Surko, Phys. Plasmas 15, 012106 (2008).
134. Dependence of Resonant Positron-molecule Annihilation on Molecular Temperature, J. A.
Young and C. M. Surko, Nucl. Instrum. and Meth. B 266, 478 - 482 (2008).
135. Feshbach-mediated Annihilation in Positron Interactions with Large Molecules, J. A. Young
and C. M. Surko, Phys. Rev. A 77, 052704, pp. 1 - 14 (2008).
136. Role of Combination Vibrations in Resonant Positron Annihilation, J. A. Young, G. F.
Gribakin, C. M. R. Lee, and C. M. Surko, Phys. Rev. A 77, 060702(R), pp. 1-4 (2008).
137. Feshbach-resonance-mediated Annihilation in Small Molecules, J. A. Young and C. M.
Surko, Phys. Rev. A 78, 032702, 1 - 14 (2008).
138. Energy Distributions of Trap-Based Charged Particle Beams, T. R. Weber, J. R. Danielson
and C. M. Surko, Phys. Plasmas, 16, 057105, 1-8 (2009).
139. Dependence of Positron-molecule Binding Energies on Molecular Parameters. J. R.
Danielson, J. A. Young and C. M. Surko, J. Phys. B: At. Mol. Opt. Phys. 42, 235203 (2009).
140. Electron Shell Contributions to the Gamma Ray Spectra of Positron Annihilation in Noble
Gases, F. Wang, L. Selvam, G. F. Gribakin, and C. M. Surko, J. Phys. B: Atomic, Molecular
and Optical Physics 43, 165207 (2010).
141. Dipole Enhancement of Positron Binding to Molecules, J. R. Danielson, J. J. Gosselin, and C.
M. Surko, Phys. Rev. Lett. 104, 233201, pp. 1 - 4 (2010).
142. Electrostatic Beams from Tailored Plasmas in a Penning-Malmberg Trap, T. R. Weber, J. R.
Danielson and C. M. Surko, Phys. Plasmas 17, 123507 pp. 1 - 10 (2010).
143. Electrostatic Beams from a 5 T Penning-Malmberg Trap, T. R. Weber, J. R. Danielson and C.
M. Surko, Rev. Sci. Instrum. 82, 016104, pp. 1-3 (2011).
144. Positron binding to alcohols, A. C. L. Jones, J. R. Danielson, J. J. Gosselin, M. R. Natisin and
C. M. Surko, New J. Phys. 14, 015006 (2012), pp. 1 – 8.
145. Interplay Between Permanent Dipole Moments and Polarizability in Positron-Molecule
Binding, J. R. Danielson, A. C. L. Jones, J. J. Gosselin, M. R. Natisin, C. M. Surko, Phys.
Rev. A 85, 22709 (2012).
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146. Ubiquitous Nature of Multi-mode Vibrational Resonances in Positron-molecule Annihilation,
A. C. L. Jones, J. R. Danielson, M. R. Natisin and C. M. Surko, Phys. Rev. Lett. 108, 093201
(2012).
147. Plans for the Creation and Studies of Electron-positron Plasmas in a Stellerator, T. S.
Pedersen, X. Sarasola, F. Schauer, E. Winkler, J. R. Danielson, C. M. Surko, C.
Hugenschmidt, L. Schweikhard and G. Marx, New J. Phys. 14, 035010 (2012).
148. Effect of Positron-atom Interactions on the Annihilation Gamma Spectra of Molecules, D. G.
Green, S. Saha, F. Wang, G. F. Gribakin and C. M. Surko, New J. Phys. 14 035021 (2012).
149. Chemical Structural effects on γ-ray Spectra of Positron Annihilation in Fluorobenzenes, F.
Wang, X.G. Ma, L. Selvam, G.F. Gribakin, and C.M. Surko, European. J. Phys. D 66, 107
(2012).
150. Comparisons of Positron and Electron Binding to Molecules, J. R. Danielson, A. C. L. Jones,
M. R. Natisin, and C. M. Surko, Phys. Rev. Lett. 109, 113201 (2012).
151. Effects of Quantum Chemistry Models for Bound Electrons on Positron Annihilation Spectra
for Atoms and Small Molecules, F. Wang, X. Ma, L. Selvam, G. F. Gribakin and C. M. Surko,
New J. Phys. 14, 085022 (2012).
152. Measuring Positron-atom Binding Energies Through Laser-assisted Photo- recombination, C.
M. Surko, J. R. Danielson, G. F. Gribakin, and R. E. Continetti, New J. Phys. 14, 065004
(2012).
153. Role of Vibrational Dynamics in Resonant Positron Annihilation on Molecules, A. C. L. Jones,
J. R. Danielson, M. R. Natisin, and C. M. Surko, Phys. Rev. Lett. 110, 223201 (2013).
154. Modeling Enhancement and Suppression of Vibrational Feshbach Resonances in Positron
Annihilation on Molecules, J. R. Danielson, A. C. L. Jones, M. R. Natisin, and C. M. Surko,
Phys. Rev. A 88, 062702 (2013).
155. Electron Plasma Orbits from Competing Diocotron Drifts, N. C. Hurst, J. R. Danielson, C. J.
Baker, and C. M. Surko, Phys. Rev. Lett. 113, 025004 (2014).
156. Positron Cooling by Vibrational and Rotational Excitation of Molecular Gases, M. R. Natisin,
J. R. Danielson, and C. M. Surko, J. Phys. B 47, 225209 (2014).
157. Electron Plasma Dynamics During Autoresonant Excitation of the Diocotron Mode, C. J.
Baker, J. R. Danielson, N. C. Hurst, and C. M. Surko, Phys. Plasmas 22, 022302 (2015).
*
158. Formation of Buffer-Gas-Trap Based Positron Beams, M. R. Natisin, J. R. Danielson, and C.
M. Surko, Phys. Plasmas 22, 033501 (2015).
159. Magnetic Field Extraction of Trap-based Electron Beams Using a High Permeability
Grid, N. C. Hurst, J. R. Danielson, and C. M. Surko, Phys. Plasmas 22 073503 (2015).
II. Review and Invited Articles
1. Waves and Turbulence in a Tokamak Fusion Plasma, C. M. Surko, R. E. Slusher, Science
221, 817-22 (1983).
2. Equilibria and Dynamics of Single-Component Plasmas, C. M. Surko, Physics Today,
Physics in the News - 1988 Section, pp 561-62, January 1989.
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3. Workshop on Nonneutral Plasmas in Traps, C. M. Surko and R. C. Davidson, BPA News,
published by the Board on Physics and Astronomy of the National Research Council, June,
1993. (4 pages).
4. Panel on Opportunities in Plasma Science and Technology Issues Report, C. M. Surko and J.
Ahearne, BPA News, published by the Board on Physics and Astronomy of the National
Research Council (3 pages) (June, 1995).
5. Use of the Positron as a Plasma Particle, C. M Surko and T. J. Murphy, Phys. Fluids B2,
1372-75 (1990).
6. Creation and Uses of Positron Plasmas, R. G. Greaves, M. D. Tinkle, and C. M. Surko,
Physics of Plasmas 1, 1439-46 (1994).
7. Antimatter Plasmas and Antihydrogen, R. G. Greaves and C. M. Surko, Phys. Plasmas 4, pp.
1528-43 (1997).
8. Emerging Physics and Technology of Antimatter Plasmas and Trap-Based Beams, C. M.
Surko and R. G. Greaves, Phys. Plasmas 11, 2333-48 (2004).
9. Progress, Challenges and Perspectives in Positron Physics, G. F. Gribakin, H. Knudsen, and
C. M. Surko, Physica Scripta 70, C1 - C9 (2004).
10. Low-energy Positron Interactions with Atoms and Molecules, C. M. Surko, G. F. Gribakin, and
S. J. Buckman, J. Phys. B: At. Mol. Opt. Phys. 38, R1 – R70 (2005).
11. Positron Atomic Physics – A Look to the Future, C. M. Surko, Nucl. Instrum. and Meth. B 247,
1 - 4 (2006). 131.
12. The Buffer-gas Positron Accumulator and Resonances in Positron-Molecule Interactions, C.
M. Surko, A. Bhatia, ed., Publication #NASA/CP-2006-214146 (NASA Center for Aero Space
Information, Hanover, MD, 2007), pp. 165 - 186. 2.14.
13. Positron-molecule Interactions: Resonant Attachment, Annihilation, and Bound States, G. F.
Gribakin, J. A. Young, and C. M. Surko, Rev. Mod. Phys. 82, 2557-2607 (2010).
14. Plasma and Trap-based Techniques for Science with Positrons, J. R. Danielson, D. H. E.
Dubin, R.G. Greaves, and C. M. Surko, Rev. Mod. Phys. 87, 247 (2015).
III. Books and Book Chapters
1. Atoms, Molecules and Plasmas, W.E. Blumberg, A. Hasegawa, A.A. Lamola, P.F. Liao, P.M.
Platzman, R.G. Shulman, R.E. Slusher and C.M. Surko, Chapter 6 in A History of Science
and Engineering in the Bell System, Physical Sciences (1925-1980), S. Millman, editor.
AT&T Bell Laboratories, 1983.
2. The Positron Trap--A New Tool for Plasma Physics, C. M. Surko, M. Leventhal, W. S. Crane,
A. P. Mills, Jr., Positron Studies of Solids Surfaces, and Atoms, A Symposium to celebrate
Stephan Berko's 60th Birthday, K. F. Canter, W. S. Crane and A. P. Mills, Jr., Eds. (World
Scientific, Singapore, p. 221, 1986). .
3. New Directions in Antimatter Chemistry and Physics, C. M. Surko and F. A. Gianturco editors
(Kluwer Scientific Publishers the Netherlands, 2001). EDITED VOLUME.
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4. Atomic and Molecular Physics Using Positron Traps and Trap-Based Beams, C. M. Surko,
Ch. 19 in New Directions in Antimatter Chemistry and Physics, C. M. Surko and F. A.
Gianturco, editors (Kluwer Scientific Publishers the Netherlands, 2001), 345-65.
5. Trap-Based Positron Beams, R. G. Greaves and C. M. Surko, Ch. 2 in New Directions in
Antimatter Chemistry and Physics, C. M. Surko and F. A. Gianturco, editors (Kluwer Scientific
Publishers the Netherlands, 2001), 21 - 33.
6.
Accumulation, Storage and Manipulation of Large Numbers of Positrons in Traps I. The
Basics, C. M. Surko, in Physics with Many Positrons, R. S. Brusa, A. Dupasquier and A. P.
Mills, Jr., eds. (IOS Press, Amsterdam, 2010), pp. 511 – 543.
7.
Accumulation, Storage and Manipulation of Large Numbers of Positrons in Traps II.
Selected Topics, C. M. Surko, J. R. Danielson, and T. R. Weber, in Physics with Many
Positrons, R. S. Brusa, A. Dupasquier and A. P. Mills, Jr., eds. (IOS Press, Amsterdam,
2010), pp. 545 – 574.
8.
Accumulation, Storage and Manipulation of Large Numbers of Positrons in Traps I. The
Basics, C. M. Surko, Ch. 4 in Physics with Trapped Charged Particles, M. Kroop, N.
Madsen, and R. C. Thompson eds. (Imperial College Press, 2014), pp. 83 - 128. (Updated
and slightly revised version of AIII.6.)
9.
Accumulation, Storage and Manipulation of Large Numbers of Positrons in Traps II.
Selected Topics, C. M. Surko, J. R. Danielson, and T. R. Weber, Ch. 5 in Physics with
Trapped Charged Particles, M. Kroop, N. Madsen, and R. C. Thompson eds. (Imperial
College Press, 2014), pp. 129 - 172. (Updated and slightly revised version of AIII.7.)
IV. Refereed Conference Proceedings
3
4
1.
Raman Scattering from Condensed Phases of He and He, C. M. Surko and R. E. Slusher,
Proc. of LT 13 Vol. 2, (Plenum Press, N.Y, 1973).
2.
The Raman Spectra of Solid and Liquid Helium at Large Frequency Shifts, C. M. Surko, R.
E. Slusher, Proc. 14th Int'l. Conf. on Low Temp. Phys. Helsinki, Finland (1975).
3.
Experiments on the ATC Tokamak, R. J. Goldston, E. Mazzucato, R. E. Slusher and C. M.
Surko, Proc. of Int'l. Conf. on Plasma Physics and Nuclear Fusion, Berchtesgaden,
Germany (1976).
4.
Study of the Energy Balance in Alcator, A. Gondhalekar, R. Granetz. D. Gronin, I.
Hutchinson, B. Kusse, E. Marmar, D. Overskei, D. Pappas, R. R. Parker, M. Pickrel, J.
Rice, L. Scaturro, J. Schuss, J. West, S. Wolfe, R. E. Slusher, and C. M. Surko, Proc. of the
VII Int'l. Conf. on Plasma Physics and Nuclear Fusion, Innsbruck, Austria (1978).
5.
Dynamics of Laser Annealing, D. H. Auston, J. A. Golovchenko, A. L. Simons, R. E.
Slusher, P. R. Smith and C. M. Surko. Am. Inst. Phys. Proc. No. 50, S. D. Ferris, H. J.
Leamy, and J. M. Poate, eds. (1979).
6.
Calculation of the Dynamics of Surface Melting During Laser Annealing, C. M. Surko, A. L.
Simons, D. H. Auston, J. A. Golovchenko, R. E. Slusher, and T. N. C. Venkatesan, Am.
Inst. Phys. Conf. Proc. No. 50, S. D. Ferris, H. J. Leamy, and J. M. Poate, eds. (1979).
7.
Study of Surface Crystallinity and Stoichiometry of Laser-Annealed GaAs Using TimeResolved Reflectivity and Channelling, T. N. C. Venkatesan, D. H. Auston, J. A.
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Golovchenko and C. M. Surko, Am. Inst. Phys. Conf. Proc. No. 50, S. D. Ferris, H. J.
Leamy, and J. M. Poate, eds. (1979).
8.
CO2 Laser Scattering from Ion-Acoustic Fluctuations, C. M. Surko, D. Gresillon, J. Olivain
and A. Truc, Proc. 9th European Conf. on Controlled Fusion and Plasma Physics, Oxford,
England (1979).
9.
Study of Driven Lower-Hybrid Waves in the Alcator A Tokamak, C. M. Surko, R. E.
Slusher, J. J. Schuss, R. R. Parker, I. H. Hutchinson, D. Overskei, and L. S. Scaturro, Proc.
of 4th Int'l. Conf. on Plasma Physics, Nagoya, Japan (1980).
10.
Lower-Hybrid Heating and Current Drive in Tokamaks and Related Experiments, M.
Porkolab, J. J. Schuss, Y. Takase, S. Knowlton and S. C. Luckhardt; R. E. Slusher and C.
M. Surko, N. J. Frisch, W. M. Hooke, C. F. F. Karney, A. H. Kritz, R. McWilliams, R. W.
Motley, M. Ono, F. W. Perkins, T. H. Stix, E. J. Valeo, J. R. Wilson, and K.-L. Wong, Proc.
of 8th Int'l. Conf. on Plasma Physics and Controlled Nuclear Fusion Research, Brussels,
Belgium (1980).
11.
Study of Driven Lower-Hybrid Waves in the Alcator A Tokamak Using CO2 Laser
Scattering, C. M. Surko, R. E. Slusher; J. J. Schuss, R. R. Parker, I. H. Hutchinson, and D.
Overskei, Proc. of Int'l. Conf. on Heating in Toroidal Plasmas, Como, Italy (1980).
12.
High Beta Experiments with Neutral Beam Injection on PDX, D. Johnson and other authors
from Princeton University, C. M. Surko, R. E. Slusher and J. Valley, Proc. of 9th Int'l. Conf.
on Plasma Physics & Controlled Nuclear Fusion Research, Baltimore, MD (1982).
13.
Density Fluctuations in the PDX Tokamak, R. E. Slusher, C. M. Surko and R. Motley, Proc.
of Int'l. Conf. on Plasma Physics, Goteborg, Sweden (1982).
14.
Density Fluctuations in the Alcator C Tokamak, R. L. Watterson, T. R. Gentile, R. E.
Slusher, C. M. Surko, Proc. of the Int'l. Conf. on Plasma Physics, Goteborg, Sweden
(1982).
15.
Alfven Wave Heating in the Pretext Tokamak - Experiments and Theory, R. D. Bengtson, J.
F. Benesch, G. L. Chen, T. E. Evans, Y. M. Lin, S. M. Mahajan, R. B. Michie, M. E. Oakes,
D. W. Ross, P. Valanju and C. M. Surko, Proc. of Joint Varenna-Grenoble Symposium on
Heating in Toroidal Plasmas, Grenoble, France (1982).
16.
Lower Hybrid Heating and Current Drive Experiments on the Alcator C and Versator II
Tokamaks, multiple authors from the Plasma Fusion Center, MIT, R. E. Slusher, C. M.
Surko, J. S. Levine, M. E. Read, V. L. Granatstein, Proc. of 9th Int'l. Conf. on Plasma
Physics and Controlled Nuclear Fusion Research, Baltimore, MD (1982).
17.
Observations of Driven Alfven Waves in the Pretext Tokamak Using CO2 Laser Scattering,
T. E. Evans, P. M. Valanju, Roger Bengtson and C. M. Surko, Proc. of 5th Topical Conf. on
Radio Frequency Plasma Heating, Madison, WI (1983).
18.
Experimental and Theoretical Studies of Alfven Wave Propagation on the PRETEXT
Tokamak, R. D. Bengtson, J. F. Benesch, T. E. Evans, Y-M. Li, S. M. Mahajan, R. B.
Michie, M. E. Oakes, D. W. Ross, P. M. Valanju, X-Z. Wang, J. E. Watkins, C. M. Surko,
Proc. of 5th Topical Conf. on Radio Frequency Plasma Heating, Madison, WI (1983).
13
Clifford M. Surko - Publications (3/16)
19.
Lower Hybrid Current Drive and Heating Experiments up to the 1MW Level in Alcator C, M.
Porkolab, et al., R. E. Slusher, and C. M. Surko, Proc. of 5th Topical Conf. on Radio
Frequency Plasma Heating, Madison, WI (1983).
20.
Study of Lower Hybrid Waves in Alcator C Using CO2 Laser Scattering, R. L. Watterson,
Y. Takase, M. Porkolab, J. J. Schuss, R. E. Slusher, C. M. Surko, Proc. of 5th Topical Conf.
on Radio Frequency Plasma Meeting, Madison, WI (1983).
21.
H-Mode Studies in PDX, R. J. Fonck and other authors from Princeton University, R. E.
Slusher, C. M. Surko and J. Valley, Proc. of the 4th Int'l. Conf. on Heating in Toroidal
Plasmas, Rome, Italy (1984).
22.
Global Alfven Eigenmodes, Theory and Experiment, R. Bengtson and other authors from
Univ. of Texas at Austin, and C. M. Surko, Proc. of 4th Int'l. Conf. on Heating in Toroidal
Plasmas, Rome, Italy (1984).
23.
Two-Frequency States at the Onset of Convection in Binary Fluid Mixtures, P. Kolodner, C.
M. Surko, H. L. Williams and A. Passner, Proceedings of the Workshop on Propagation in
Systems Far From Equilibrium, Les Houches, France, March 1987; J. Wesfried et. al., eds.
(Springer Verlag, Berlin, 1988) pp 282-292.
24.
A Positron Plasma in the Laboratory, C. M. Surko, M. Leventhal, A. Passner and F. J.
Wysocki, Proc. of the ONR Conf. on Single-Component Plasmas, AIP Conf. Proceedings,
No. 175, Nov. 1988.
25.
Physics in a Positron Trap, C. M. Surko, A. Passner, M. Leventhal, and F. J. Wysocki, in
Positron Annihilation, L. Dorikens-Vanpraet, and D. Segers, eds. (World Scientific,
Singapore, 1989), pp 161-170. .
26.
Annihilation of Positrons on Large Molecules, T. J. Murphy and C. M. Surko, in Electronic
and Atomic Collisions (Adam Hilger Publishing, Bristol, England, 1992), 623-30.
27.
Wavelength Selection in Traveling-Wave Convection in a Fluid Mixture, C. M. Surko, K.
Eaton, G. Baxter, and K. Iwata, Proc. of the 11th Symposium on Energy Engineering
Sciences (DoE Office of Scientific and Technical Information, Oak Ridge, TN, 1993; CONF9305134), pp. 164-171.
28.
Experiments with Trapped Positron Plasmas, R. G. Greaves, M. D. Tinkle, and C. M.
Surko, Nonneutral Plasmas II, J. Fajans and D.H.E. Dubin, eds. (American Institute of
Physics, 1995), 70-86.
29.
Modes of Spheroidal Ion Plasmas at the Brillouin Limit, M. D. Tinkle, R. G. Greaves, and C.
M. Surko, Nonneutral Plasmas II, J. Fajans and D.H.E. Dubin, eds. (American Institute of
Physics, 1995), 229-41.
30.
Studies of Positron-Matter Interactions Using Stored Positrons in an Electrostatic Trap, K.
Iwata, R. G. Greaves, C. Kurz, S. J. Gilbert, and C. M. Surko, Positron Annihilation ICPA11, Y. C. Jean, M. Eldrup, D. M. Schrader, and R. N. West, eds. (Trans Tech Publications,
Switzerland, 1997), pp. 223-227.
31.
Dynamics in Hetereogeneous Catalysis: Understanding the spatial coupling, C. D. Lund, C.
M. Surko, M. B. Maple, and S. Y. Yamamoto, in Applied Dynamics Near the Millenium, J.
Kadke and A. Bulsara, eds. (American Institute of Physics, 1997), pp. 18 – 23.
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32.
Atomic and Molecular Physics Using Positrons in a Penning Trap, C. M. Surko, K. Iwata, C.
Kurz, and S. J. Gilbert, in Photonic, Electronic and Atomic Collisions, F. Aumayr and H. P.
Winter, eds. (World Scientific, Hong Kong, 1998), pp. 383-392.
33.
Progress in Creating Low-energy Positron Plasmas and Beams, C. M. Surko, S. J. Gilbert,
and R. G. Greaves, Non-neutral Plasma Physics III, J. Bollinger, R. Spencer, and R.
Davidson, eds. (American Institute of Physics, 1999), pp. 3 - 12.
34.
Technological Applications of Trapped Positrons, R. G. Greaves, and C. M. Surko, Nonneutral Plasma Physics III, J. Bollinger, R. Spencer, and R. Davidson, eds. (American
Institute of Physics, 1999), pp. 19 – 28.
35.
Vibrational Excitation Cross Sections for Low Energy Positron Molecule Scattering, J. P.
Sullivan, S. J. Gilbert, J. P. Marler, S. J. Buckman, and C. M. Surko, Proceedings of the
nd
22 International Conference on Photonic, Atomic, and Electronic Collisions, J. Burgdorfer,
et al., Eds. (Rinton Press, Princeton, N. J., 2002), pp. 365 – 368.
36.
Low-Energy Positron-Matter Interactions Using Trap-Based Beams, S. J. Gilbert, J. P.
Sullivan, J. P. Marler, L. D. Barnes, P. Schmidt, S. J. Buckman and C. M. Surko,
Nonneutral Plasma Physics IV, F. Anderegg, L. Schweikhard, C. F. Driscoll, Eds. (AIP
Conf. Proc. #606, AIP Press, Melville NY, 2002) pp. 24-34.
37.
Practical Limits on Positron Accumulation and the Creation of Electron-Positron Plasmas,
R. G. Greaves and C. M. Surko, Nonneutral Plasma Physics IV., F. Anderegg, L.
Schweikhard, C. F. Driscoll, Eds. (AIP Conf. Proc. #606, AIP Press, Melville NY, 2002) pp.
10-23.
38.
A Cryogenic High-field Trap for Large Positron Plasmas and Cold Beams, J. R. Danielson,
J. P. Sullivan, P. Schmidt, and C. M. Surko, Nonneutral Plasma Physics V., M. Schauer, et
al., Eds. (AIP Conf. Proc. #692, AIP Press, Melville NY, 2003) pp. 149 - 61.
39.
Ionization and Positronium Formation in Noble Gases, J. P. Marler, J. P. Sullivan and C. M.
Surko, Photonic, Electronic and Atomic Collisions, Proceedings of the XXIV International
Conference, P. D. Fainstein, et al., eds. (World Scientific, Singapore, 2006), pp. 391-398.
40.
Plasma Compression using Rotating Electric Fields – the Strong Drive Regime, J. R.
Danielson and C. M. Surko, Nonneutral Plasma Physics VI, M. Drewsen, U. Uggerhoj, H.
Knudsen, eds. (AIP Conf. Proc. #862, AIP Press, Melville NY, 2006) pp. 19-28.
41.
High Resolution Cross Section Measurements using a Trap-Based Positron (Electron)
Beam, J. P. Marler and C. M. Surko, 23rd Summer School and International Symposium on
the Physics of Ionized Gases, L. Hadzievski, B. Marinkovic, N. Simonovic, eds. (AIP Conf.
Proc. No. 876, AIP, Melvile NY, 2006).
42.
New Plasma Tools for Antimatter Science, J. R. Danielson, T. R. Weber and C. M. Surko,
Y. Kanai and Y. Yamazaki eds. (AIP Conf. Proc. 1037, AIP Press, Melville NY, 2009), pp.
84 - 95.
43.
Tailored Particle Beams from Single-Component Plasmas, T. R. Weber, J. R. Danielson
and C. M. Surko, Nonneutral Plasma Physics VII, J. R. Danielson and T. S. Pederson, eds.
(AIP Conf. Proc. 1114, AIP Press, Melville NY, 2009), pp. 171-178.
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44.
Next Generation Trap for Positron Storage, J. R. Danielson, T. R. Weber, and C. M.
Surko, Nonneutral Plasma Physics VII, J. R. Danielson and T. S. Pederson, eds. (AIP
Conf. Proc. 1114, AIP Press, Melville NY, 2009), pp. 199-206.
45.
Analysis of Experimental Positron-Molecule Binding Energies, J. R. Danielson, J. A.
Young, and C. M. Surko, J. Phys. Conf. Series 199, 012012 (2010).
46.
Progress Towards A Practical Multicell Positron Trap, J. R. Danielson, N. C. Hurst, and
C. M. Surko, Nonneutral Plasma Physics VIII (AIP Conf. Proc. 1521, AIP Press, Melville
NY, 2013), pp. 101 - 112.
47.
Recent Progress in Tailoring Trap-based Positron Beams, M. R. Natisin, N. C. Hurst, J.
R. Danielson and C. M. Surko, in Nonneutral Plasma Physics VIII (AIP Conf. Proc. 1521,
AIP Press, Melville NY, 2013), pp. 154 - 164.
48.
Finite-Length, Large-Amplitude Diocotron Mode Dynamics, N. C. Hurst, J. R. Danielson,
C. J. Baker and C. M. Surko, Nonneutral Plasma Physics IX (AIP Conf. Proc. 1521, AIP
Press, Melville NY), submitted.
49.
Progress Toward Positron-Electron Pair Plasma Experiments, U. Hergenhahn, H.
Niemann, T. Sunn Pedersen, H. Saitoh, J. Stanja, E. Stenson, G. H. Marx, L.
Schweikhard, C. Hugenschmidt, J. R. Danielson and C. M. Surko, Nonneutral Plasma
Physics IX (AIP Conf. Proc. 1521, AIP Press, Melville NY), submitted.
*
*
*
V. Other Conference Proceedings.
1.
Study of the Ion-Acoustic Instability in a Positive Column Using CO2 Laser Scattering, C.
M. Surko, R. E. Slusher, D. R. Moler and M. Porkolab, Proc. of the XI Int'l. Conf. on
Phenomena in Ionized Gases, Prague, Czech. (1973).
2.
Density Fluctuations in Tokamak Plasmas--After a Decade of Research What Can We
Say? C. M. Surko, Proceedings of the Conf. on Small Scale Turbulence in Magnetized
Plasmas; F. Doveil and D. Gresillon eds., published by Les Editions de Physique (1986),
pp. 93-109.
3.
Traveling-Wave Convection in Binary Fluid Mixtures, K D. Eaton, C. M. Surko, D. R.
Ohlsen, S. Y. Yamamoto, and G. W. Baxter; Proc. of the 9th Symposium on Engineering
Energy Sciences, Argonne, IL, May, 1991 (DOE Office of Scientific and Technical
Information, Oak Ridge, TN; 1991; CONF-9105116), pp. 286-293.
4.
Physics with Trapped Positron Gases and Plasmas, C. M. Surko and R. G. Greaves,
Condensed Matter and Plasmas in Physics & Astronomy, S. Ichimaru and S. Ogatu, eds.
463-76 (Addison Wesley, 1995).
5.
2-D Traveling-Wave Patterns in Binary Fluid Convection, C. M. Surko and A. La Porta,
Proc. of the 14th Symposium on Energy Engineering Sciences (DOE Office of Scientific
and Technical Information, Oak Ridge, TN, CONF - 9605186, 1996) p. 191.
6.
Phase-defect Description of Traveling-Wave Convection, C. M. Surko and A. La Porta,
Proc. of the 17th Symposium on Energy Engineering Sciences (CONF-0001, DOE Office of
Scientific and Technical Information, Oak Ridge, TN, 1999), pp. 50 - 57.
7.
Use of Positron Scattering and Annihilation to Study Atomic Clusters and Nanoscale
Particles, C. M. Surko, Proc. of the 20th Symposium on Energy Engineering Sciences
16
Clifford M. Surko - Publications (3/16)
CONF2002 (U.S. DOE Office of Scientific and Technical Information, Oak Ridge, TN,
2002), pp. 69-76.
8.
Scattering and Annihilation Experiments Using a Trap-Based Beam, J. P. Sullivan, L. D.
Barnes, J. P. Marler, S. J. Gilbert, and C. M. Surko, Materials Science Forum 445, 435-39
(2004).
9.
Resonant Positron Annihilation on Molecules, J. A. Young and C. M. Surko, Materials
Science Forum 607, pp 9-16 (2009).
10.
Positron Attachment to Molecules, J. A. Young and C. M. Surko, Phys. Status Solidi C 6,
2265–2271 (2009).
11.
Resonant Positron Annihilation on Molecules, J. A. Young and C. M. Surko, Materials
Science Forum 607, 9 (2009).
12.
Calculation of Gamma Spectra from Positron Annihilation on Molecules, D. G. Green, S.
Saha, F. Wang, G. F. Gribakin, C. M. Surko, Materials Science Forum 666, pp. 21 – 24
(2011). 1.58.
VI. Popular Articles
1. Atomic physics - A whiff of Antimatter Soup, Surko, Clifford M., Nature 449, 153 (2007).
2. Anti-Atoms Gotcha! Surko, Clifford M, Nature Physics 7, 520 - 521 (2011).
VII. Other Work
1. Control Techniques for Annealing Semiconductors, D. H. Auston, J. A. Golovchenko, R. E.
Slusher, C. M. Surko, and T. N. C. Venkatesan, U. S. Patent 4, 155, 779, issued 22 May
1979. U. S. PATENT.
2. Plasma Science: From Fundamental Research to Technological Applications, C. M. Surko, J.
F. Ahearne, P. Banks, T. Birmingham, M. Boyle, R. C. Davidson, J. Jacob, M. Porkolab, E.
Salpeter, R. Saxon, S. Treiman, H. York, and E. Zweibel (National Academy Press,
Washington DC, 1995). 1-199. NATIONAL RESEARCH COUNCIL REPORT.
3. Statement on Plasma Science: From Fundamental Research to Technological Applications,
C. M. Surko, Congressional Hearing, Subcommittee on Energy and Environment, House
Committee on Science, No. 53 (U. S. Government Printing Office, 1996). 67–81.
CONGRESSIONAL TESTIMONY.
4. Burning Plasma: Bringing a Star to Earth, J. F. Ahearne, R. Fonck, J. N. Bahcall, G. A. Baym,
I. B. Bernstein, S. C. Cowley, E. A. Frieman, W. Gekelman, J. Hezir, W. N. Nevins, R. R.
Parker, C. Pellegrini, B. Richter, C. M. Surko, T. S. Taylor, M. A. Urickson, M. C. Zarnsdorff,
E. G. Zweibel, (National Academy Press, Washington DC, 2003). 1-190. NATIONAL
RESEARCH COUNCIL REPORT.
5. Plasma Science: Advancing Knowledge in the National Interest, S. C. Cowley, J. P. Peoples,
Jr., J. D. Callen, F. R. Chang-Diaz, T. Ditmire, W. Dorland, W. Gekelman, S. L. Girshick, D.
Hammer, E. P. Ippen, M. J. Kusher, K. A. Lynch, J. E. Menard, L. Merminga, E. Quataert, T.
J. Sommerer, C. M. Surko, M. Tabak (National Academy Press, Washington DC, 2007). 1262. NATIONAL RESEARCH COUNCIL REPORT.
17