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One Hundred and Fifteen Years of Meteor Spectroscopy

Published online by Cambridge University Press:  14 August 2015

Peter M. Millman
Peter M. Millman*
Affiliation:
Herzberg Institute of Astrophysics, National Research Council of Canada, Ottawa, Ontario, Canada, K1A OR6

Abstract

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Early visual observations of meteor spectra were instigated by A.S. Herschel and, in the period 1866-1880, resulted in the recording of several hundred spectra and the correct identification of the lines of neutral sodium and magnesium. Some 60 meteor spectra were photographed from 1897 to 1940, which resulted in the identification of 9 neutral and 4 singly ionized atoms. Improved cameras and techniques after World War II, and in particular the use of closed-circuit television equipment recording on video tape, increased the data-bank of meteor spectra to several thousand and made possible the identification in these spectra of between 15 and 20 neutral atoms, 9 singly ionized atoms and 6 diatomic molecules. Reliable luminous efficiencies of the atoms and molecules radiating in the observed light of meteors are available in only a few cases. Where relative abundances of the elements have been calculated, these agree in general with those found by other techniques for interplanetary dust, and with abundances for the solar system as a whole.

Type
II: Meteors and Meteorites
Information
Symposium - International Astronomical Union , Volume 90: Solid Particles in the Solar System , 1980 , pp. 121 - 128
Copyright
Copyright © Reidel 1980 

References

Anisimov, V.F., Gul'medov, Kh.D., Mukhamednazarov, S.: 1976, Astron. Vestn. 10, pp. 124125.Google Scholar
Baggaley, W.J.: 1976, Bull. Astron. Inst. Czech. 27, pp. 173181.Google Scholar
Baggaley, W.J.: 1977a, ibid. 28, pp. 108113.Google Scholar
Baggaley, W.J.: 1977b, ibid. 28, pp. 356359.Google Scholar
Baggaley, W.J., Cummack, C.H.: 1979, ibid. 30, pp. 180183.Google Scholar
Blajko, S.: 1907, Astrophys. J. 26, pp. 341348.CrossRefGoogle Scholar
Cameron, A.G.W.: 1973, Space Sci. Rev. 15, pp. 121146.CrossRefGoogle Scholar
Ceplecha, Z.: 1964, Bull. Astron. Inst. Czech. 15, pp. 102112.Google Scholar
Ceplecha, Z.: 1971, ibid. 22, pp. 219304.Google Scholar
Ceplecha, Z.: 1973, ibid. 24, pp. 232242.Google Scholar
Clifton, K.S., Reese, R., Davis, C.W.: 1979, Opt. Eng. 18, pp. 291297.CrossRefGoogle Scholar
Cook, A.F.: 1955, “Meteors”, ed. Kaiser, T.R., Pergamon Press, London, pp. 815.Google Scholar
Cook, A.F.: 1968, “Physics and Dynamics of Meteors”, eds. Kresak, L., Millman, P.M., D. Reidel Pub. Co., Dordrecht-Holland, pp. 149160.Google Scholar
Cook, A.F.: 1973, “Evolutionary and Physical Properties of Meteoroids”, eds. Hemenway, C.L., Millman, P.M., Cook, A.F., NASA SP-319, Washington, D.C., pp. 183191.Google Scholar
Gault, W.A.: 1970, Can. J. Phys. 48, pp. 10171025.CrossRefGoogle Scholar
Halliday, I.: 1958, Astrophys. J. 128, pp. 441443.CrossRefGoogle Scholar
Halliday, I.: 1969, Pub. Dom. Obs. 25, pp. 315322.Google Scholar
Halliday, I., Griffin, A.A.: 1963, J. Sci. Instru. 40, pp. 187188.CrossRefGoogle Scholar
Harvey, G.A.: 1973, “Evolutionary and Physical Properties of Meteoroids”, eds. Hemenway, C.L., Millman, P.M., Cook, A.F., NASA SP-319, Washington, D.C., pp. 131139.Google Scholar
Harvey, G.A.: 1974, Sky Telesc. 47, pp. 378380.Google Scholar
Hemenway, C.L., Swider, A., Bowman, C.: Can. J. Phys. 49, pp. 13611364.CrossRefGoogle Scholar
Herschel, A.S.: 1865, Les Mondes (Paris) 7, pp. 139142.Google Scholar
Herschel, A.S.: 1866, Intellectual Observer 10, pp. 161170.Google Scholar
Millman, P.M.: 1932, Ann. Harv. Coll. Obs. 82, pp. 113146.Google Scholar
Millman, P.M.: 1934, J. Roy. Astron. Soc. Can. 28, pp. 279281, 455-456.Google Scholar
Millman, P.M.: 1935, Ann. Harv. Coll. Obs. 82, pp. 149177.Google Scholar
Millman, P.M.: 1936, J. Roy. Astron. Soc. Can. 30, pp. 101103.Google Scholar
Millman, P.M.: 1937, ibid. 31, pp. 5052.Google Scholar
Millman, P.M.: 1952, ibid. 46, pp. 121125.Google Scholar
Millman, P.M.: 1953, Nature 172, pp. 853854.CrossRefGoogle Scholar
Millman, P.M.: 1956, Sky Telesc. 15, pp. 375378.Google Scholar
Millman, P.M.: 1968, “Physics and Dynamics of Meteors”, eds. Kresak, L., Millman, P.M., D. Reidel Pub. Co., Dordrecht-Holland, pp. 8490.Google Scholar
Millman, P.M.: 1972, J. Roy. Astron. Soc. Can. 66, pp. 201211.Google Scholar
Millman, P.M.: 1976, Sky Telesc. 51, pp. 225228.Google Scholar
Millman, P.M.: 1979, Naturwissenschaften 66, pp. 134139.CrossRefGoogle Scholar
Millman, P.M., Clifton, K.S.: 1979, Sky Telesc. 57, pp. 2123.Google Scholar
Millman, P.M., Cook, A.F., Hemenway, C.L.: 1971, Can. J. Phys. 49, pp. 13651373.CrossRefGoogle Scholar
Mukhamednazarov, S.: 1977, Astron. Vestn. 11, pp. 164171.Google Scholar
Mukhamednazarov, S., Smirnov, V.A.: 1977, Astron. Vestn. 11, pp. 101104.Google Scholar
Öpik, E.J.: 1958, “Physics of Meteor Flight in the Atmosphere”, Interscience Pub. Inc., New York.Google Scholar
Pickering, E.C.: 1897, Cir. Harv. Coll. Obs. No. 20.Google Scholar
Rajchl, J.: 1974, Bull. Astron. Inst. Czech. 25, pp. 3446.Google Scholar
Savage, H.F., Boitnott, C.A.: 1973, “Evolutionary and Physical Properties of Meteoroids”, eds. Hemenway, C.L., Millman, P.M., Cook, A.F., NASA SP-319, Washington, D.C., pp. 8387.Google Scholar