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The Auroral Green Line in Perseid Spectra Near Sunspot Maximum

Published online by Cambridge University Press:  12 April 2016

John A. Russell
John A. Russell*
Affiliation:
University of Southern CaliforniaLos Angeles, California

Abstract

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Thirty-one spectra photographed during the Perseid showers of 1969 and 1970 are found to exhibit greater ionization and stronger, more frequent appearance of the forbidden oxygen line at 5577 Å than Perseid spectra obtained with the same instrument in 1961. Data from 13 Perseid showers indicate a relationship between the frequency of occurrence of the oxygen line and solar activity. In 1969-70, near sunspot maximum, the strength of this so-called auroral green line is greatest near shower maximum, as though the nature of the meteoroids were a function of their distance from the core of the stream, or, alternatively, the strength of the green line were a function of the altitude of the radiant.

Type
Research Article
Information
International Astronomical Union Colloquium , Volume 13: Evolutionary and Physical Properties of Meteoroids , June 1971 , pp. 141 - 146
Copyright
Copyright © NASA 1971

References

Ceplecha, Z., 1967. Classification of meteor orbits, Smithson. Contrib. Astrophys., 11, 3560.Google Scholar
Hajduk, A., 1968. Factors affecting radar-meteor echo durations, in Physics and Dynamics of Meteors, edited by Kresák, L. and Millman, P. M., D. Reidel Publ. Co., Dordrecht, Holland, 4549.Google Scholar
Halliday, I., 1960. Auroral green line in meteor wakes, Astrophys. J., 131, 2533.CrossRefGoogle Scholar
Hirose, H., Nagasawa, K., and Tomita, K., 1968. Spectral studies of meteors at the Tokyo Astronomical Observatory, in Physics and Dynamics of Meteors, edited by Kresák, L. and Millman, P. M., D. Reidel Publ. Co., Dordrecht, Holland, 105118.Google Scholar
Jacchia, L. G., 1963. Meteors, meteorites and comets: Interrelations, in The Moon, Meteorites and Comets, edited by Middlehurst, B. M. and Kuiper, G. P., Univ. of Chicago Press, 774798.Google Scholar
Kresák, L., 1968. The relations between orbits and physical characteristics of meteors, in Physics and Dynamics of Meteors, edited by Kresák, L. and Millman, P. M., D. Reidel Publ. Co., Dordrecht, Holland, 217235.Google Scholar
Lindblad, B.-A., 1968. Long-term variations in meteor radar rates, meteor heights and radar-echo amplitudes, in Physics and Dynamics of Meteors, edited by Kresák, L. and Millman, P. M., D. Reidel Publ. Co., Dordrecht, Holland, 5062.Google Scholar
Millman, P. M., 1968. The radar meteor echo, in Physics and Dynamics of Meteors, edited by Kresák, L. and Millman, P. M., D. Reidel Publ. Co., Dordrecht, Holland, 313.Google Scholar
Millman, P. M., Cook, A. F., and Hemenway, C. L., 1971. Spectroscopy of Perseid meteors with an image orthicon, Can. J. Phys., 49, 13651373.Google Scholar
Russell, J. A., 1959. Some Perseid meteor spectra of the past decade, Sky Telesc, 18, 549551.Google Scholar
Russell, J. A., 1964. The spectra of faint Perseids, Meteoritics, 2, 117125.Google Scholar
Russell, J. A., 1969. Perseid meteor spectra photographed in 1969, Sky Telesc, 38, 424425.Google Scholar
Verniani, F., 1967. Meteor masses and luminosity, Smithson. Contrib. Astrophys., 10, 181195.CrossRefGoogle Scholar