Alan Walsh
Bibliography
Walsh 1
Alan Walsh—Bibliography
Contributions to books
(1)
1945
The spectrographic analysis of aluminium alloys by the direct comparison method. In Collected Papers on
Metallurgical Analysis by the Spectrograph, (ed. D.M. Smith), pp.65–81. Brit. Non-Ferrous Metals Research
Assoc., London.
(2)
(With D.M. Smith) The spectrographic analysis of zinc base alloys. In Collected Papers on Metallurgical
Analysis by the Spectrograph, (ed. D.M. Smith), pp.116–129. Brit. Non-Ferrous Metals Research Assoc.,
London.
(3)
(With D.M. Smith) Note on the spectrographic determination of aluminium in aluminium brass (76/22/2). In
Collected Papers on Metallurgical Analysis by the Spectrograph, (ed. D.M. Smith), pp. 130–134. Brit. NonFerrous Metals Research Assoc., London.
(4)
1950
Light sources for spectrochemical analysis. In Metal Spectroscopy, (ed. F. Twyman), pp. 170–228. Griffin,
London.
(5)
1962
(With N.S. Ham) Raman bands in liquids. In Encyclopaedic Dictionary of Physics, Vol. 6. p. 177. Pergamon,
Oxford.
(6)
1966
(With J.B. Willis) Atomic absorption spectrometry. In Standard Methods of Chemical Analysis, Vol. 3, Part A.
Instrumental Methods, (ed. F.J. Welcher, Van Nostrand), pp. 105–117. Princeton, NJ.
Journal articles
(7)
1943
(8)
1946
(9)
(10)
1947
(11)
1949
(13)
(14)
(15)
1950
1951
(16)
(17)
(18)
(19)
1952
(20)
(21)
(22)
(23)
(24)
(25)
(26)
(27)
(28)
1953
(29)
1955
(30)
1957
(31)
(32)
1958
(33)
(34)
(35)
1959
1960
(36)
(37)
(38)
(39)
(40)
1961
1962
(41)
1963
(With D.M. Smith) The electrical screening of sparking apparatus for use in spectrographic analysis. J. Sci. Inst.
20, 63–64.
A general-purpose source unit for the spectrographic analysis of metals and alloys. Bull. Brit. Non-Ferrous
Metals Research Assoc. No. 201 60–80; Metal Industry 68, 243, 263, 293.
The suppression of radio interference from spark generators used in spectrographic analysis. Brit. Non-Ferrous
Metals Research Assoc. Paper No. S35/125.
(With S. Stallberg-Stenhagen, E. Stenhagen, N. Sheppard, G.B.B.M. Sutherland). Infra-red spectrum and
molecular structure of phthiocerane. Nature, Lond. 160, 580–582.
The spectroscopic determination of thermodynamic data. J. Proc. Aust. Chem. Inst. 16, 371–386. (With J.B.
Willis) Infra-red absorption spectra at low temperatures. J. Chem. Phys. 17, 838.
(With J.B. Willis) Infra-red absorption spectra at low temperatures. J. Chem. Phys. 18, 552–556.
Spectrographic analysis of uranium. Spectrochim. Acta 4, 47–56.
(With A.G. Pulford) The infra-red spectrum and thermodynamic constants of nitrosyl chloride. Trans. Faraday
Soc. 47, 347–353.
(With J.C. Earl, R.J.W. Le Fèvre, A.G. Pulford) The infra-red spectra of three sydnones. J. Chem. Soc. 481,
2207–2208.
Design of multiple monochromators. Nature, Lond. 167, 810–811.
(With N.S. Ham, A.L.G. Rees) Infra-red studies of solvent effects. Nature, Lond. 169, 110–111.
(With N.S. Ham, A.L.G. Rees) The infra-red spectra of solutions of iodine in mesitylene. J. Chem. Phys. 20,
1336–1337.
(With N.S. Ham, J.B. Willis) A quadruple monochromator. Nature, Lond. 169, 977.
Multiple monochromators. I. Design of multiple monochromators. J. Opt. Soc. Am. 42, 94–95.
Multiple Monochromators. II. Applications of a double monochromator to infra-red spectroscopy. J. Opt. Soc.
Am. 42, 96–100.
(With N.S. Ham, J.B. Willis) Multiple monochromators. III. A quadruple monochromator and its application to
infra-red spectroscopy. J. Opt. Soc, Am. 42, 496–500.
Multiple monochromators. Nature, Lond. 169, 976.
Echelette zone plates for use in far infra-red spectroscopy. J. Opt. Soc. Am. 42, 213.
Reduction of scattered light in a Littrow-type monochromator. J. Opt. Soc. Am. 43, 58.
Design of double-beam multiple monochromators. J. Opt. Soc. Am. 4, 215.
(With J.B. Willis) Multiple monochromators. IV. A triple monochromator and its application to near infra-red,
visible and ultra-violet spectroscopy. J. Opt. Soc. Am. 43, 989–992.
The application of atomic absorption spectra to chemical analysis. Spectrochim. Acta 7, 108–117; erratum ibid. 7,
p. 252.
(With B.J. Russell, J.P. Shelton) An atomic absorption spectrophotometer and its application to the analysis of
solutions. Spectrochim. Acta 8, 317–328.
(With N.S. Ham) Microwave-powered Raman sources. Spectrochim. Acta 12, 88–93.
(With J.P. Shelton) The application of atomic absorption spectra to chemical analysis. Proc. XV Congr. Pure
Appl. Chem. (Lisbon, 1956), IV-50, 403–409.
(With B.J. Russell) Resonance radiation from a hollow cathode. Spectrochim. Acta 15, 883–885.
(With G.F. Box) A simple atomic absorption spectrophotometer. Spectrochim. Acta 16, 255–258.
(With B.M. Gatehouse) Analysis of metal samples by atomic absorption spectroscopy. Spectrochim. Acta 16,
602–604.
(With W.G. Jones) Hollow-cathode discharges: the construction and characteristics of sealed-off tubes for use as
spectroscopic light sources. Spectrochim. Acta 16, 249–254.
The application of atomic absorption spectra to chemical analysis. Adv. Spectrosc. 2, 1–22.
(With N.S. Ham) Potassium and rubidium Raman lamps. J. Chem. Phys. 36, 1096–1097.
Atomic absorption spectroscopy. Proc. Int. Conf. Spectrosc. 10, 127–142.
Atomic absorption spectroscopy. Rep. Conf. Hydrocarbon Res. Group Inst. Petrol., Lond. 13–28 (Inst. Petrol.,
London, 1962).
(With C.K. Coogan, J.D. Morrison, J.K. Wilmshurst) Fourth Australian Spectroscopy Conference. Aust. J. Sci.
26, 141–145.
Walsh 2
(42)
(43)
(44)
(45)
(46)
(47)
(48)
1965
1966
(49)
(50)
(51)
(52)
1967
(53)
(54)
(55)
1968
(56)
(57)
(58)
(59)
(60)
(61)
(62)
(63)
1969
1970
1972
1973
(64)
(65)
(66)
(67)
(68)
(69)
1974
(70)
(71)
(72)
1975
(73)
(74)
(75)
(76)
1977
1978
1980
(77)
(78)
1982
(79)
(80)
(81)
1984
1988
(82)
(83)
1991
1999
(With C.K. Coogan, J.D. Morrison, J.K. Wilmshurst) Spectroscopy in Australia. Nature, Lond. 200, 319–322.
Atomic absorption spectroscopy in Australia. Feigl Anniversary Symposium on Analytical Chemistry,
Birmingham, (Elsevier, Amsterdam) pp. 281–287.
Fourth Australian Spectroscopy Conference, Canberra. Appl. Opt. 3, 322.
(With J.V. Sullivan) High intensity hollow-cathode lamps. Spectrochim. Acta 21, 721–726.
(With J.V. Sullivan) Resonance radiation from atomic vapours. Spectrochim. Acta 21, 727–730.
Some recent advances in atomic absorption spectroscopy. Proc. 12th Int. Conf. Spectrosc., pp. 43–65.
(With J.A. Bowman, J.V. Sullivan) Isolation of atomic resonance lines by selective modulation. Spectrochim.
Acta 22, 205–210.
(With J.V. Sullivan) The application of resonance lamps as monochromators in atomic absorption spectroscopy.
Spectrochim. Acta 22, 1843–1852.
Some recent advances in atomic absorption spectroscopy. Jl. N. Z. Inst. Chem. 30, 7–21.
Some recent advances in atomic absorption spectroscopy. Zh. Prikl. Spektrosk. 4, 471–480. [In Russian –
translation of preceding reference.]
(With J.V. Sullivan) Resonance monochromators for absorption measurements in the visible and ultraviolet.
Spectrochim. Acta Part B 23, 131–132.
Atomic absorption spectroscopy (Einstein Memorial Lecture, 1967). Aust. Physicist 4, 185–189.
Atomic absorption spectroscopy: a foreword. Appl. Opt. 7, 1259–1260.
Simultaneous multi-element analysis by atomic absorption spectroscopy. XIII Colloquium Spectroscopicum
Internationale, Ottawa, pp. 257–268.
(With J.V. Sullivan) The isolation and detection of atomic resonance lines. Appl. Opt. 7, 1271–1280.
(With P.L. Larkins, R.M. Lowe, J.V. Sullivan) The use of solar-blind photomultipliers in flame spectroscopy.
Spectrochim. Acta Part B 24, 187–190.
Physical aspects of atomic absorption, ASTM Spec. Tech. Pub. No. 443, 3–18.
(With P.A. Bennett, J.V. Sullivan) A simple protein meter. Anal. Biochem. 36, 123–126.
The application of new techniques to simultaneous multi-element analysis. Pure Appl. Chem. 23, 1–10.
Preface to B.V. L’vov. Atomic Absorption Spectrochemical Analysis. (Adam Hilger, London).
Eighth Australian Spectroscopy Conference. Monash University. Appl. Opt. 11, 708.
(With D.S. Gough, P. Hannaford) The application of cathodic sputtering to the production of atomic vapours in
atomic fluorescence spectroscopy. Spectrochim. Acta Part B 28, 197–210.
Atomic absorption methods for the direct analysis of metals and alloys. (Hasler Award Address, 1972), Appl.
Spectrosc. 27, 335–341.
Invention and innovation, Search 4, 69–74.
Non-dispersive systems in atomic spectroscopy, Pure Appl. Chem. 34, 145–161.
Obituary to Mr J.E. Allan. Search 4, 126.
Atomic absorption spectroscopy – stagnant or pregnant? Anal. Chem. 46, 689A-708A.
Ninth Australian Spectroscopy Conference, Australian National University, 13–17 August 1973. Appl. Opt. 13,
703.
The separated flame as a resonance detector. Analyst 100, 764.
Spectrochemistry since Kirchhoff and Bunsen. Proc. Roy. Aust. Chem. Inst. 42, 297–303.
(With P.L. Larkins) Flame-type resonance spectrometers – a new direction in atomic spectroscopy. Proc. Int.
Conf. on Heavy Metals in the Environment, Toronto, 27–31 Oct., pp. 249–259.
Atomic absorption spectroscopy and its applications – old and new. Pure Appl. Chem. 49, 1621–1628.
Atomic spectroscopy – what next? Atom. Abs. Newsletter 17, 97–99.
The birth of modern atomic absorption spectroscopy. Chimia 34, 427–429.
The application of atomic absorption spectrometry to chemical analysis, Matthew Flinders Lecture of the
Australian Academy of Science. Hist. Rec. Aust. Sci. 5, 129–162.
Atomic absorption spectroscopy – some personal recollections and speculations. Spectrochim. Acta Part B 35,
639–642.
Atomic absorption and atomic fluorescence methods of elemental analysis: their merits and limitations. Phil.
Trans. Roy. Soc. Lond. A 305, 485–498.
(With K. Braun & W. Slavin) Non-dispersive atomic fluorimeter for metals that form volatile hydrides.
Spectrochim. Acta Part B 37, 721–726.
Coherent forward scattering and its application to elemental analysis. Anal. Proc. 21, 54–55.
(With P. Hannaford) Sputtered atoms in absorption and fluorescence spectroscopy. Spectrochim. Acta Part B 43,
1053–1068.
The development of atomic absorption methods of elemental analysis 1952–1962. Anal. Chem., 63, 933A–941A.
The development of the atomic absorption spectrophotometer. Spectrochim. Acta Part B 54, 1943–1952;
reproduced from a draft of a manuscript written in June 1976.
Walsh 3