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Physical Processes in Cometary Atmospheres

Published online by Cambridge University Press:  14 August 2015

A. Z. Dolginov*
Affiliation:
A. F. Ioffe Institute of Physics and Technology, Leningrad, U.S.S.R.

Abstract

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Formulae are obtained for the distribution of molecules in the cometary head, taking into account the conditions of hydrodynamic and free molecular flow in various regions around the nucleus. Experimental data are used to derive physical parameters near the nuclei of comets 1952 III, 1955 V, 1957 III, and 1960 II and the rate of decrease of mass. The possibility of chemical reactions in the region close to the nucleus is discussed. Gas condensation is shown to be a possible cause of dust formation under the conditions existing near the nucleus, and this process may be responsible for the major portion of the cometary dust component. The observed grouping of synchrones in the cometary tail can be explained on the assumption that the nuclear surface comprises two (or more) areas differing essentially in evaporation rate, the amount of matter ejected varying over the rotation period of the nucleus. Charged dust particles are shown to form, with electrons and ions, a common medium, i.e., dust plasma, which can be treated by the same methods used for ordinary plasma. Special investigations appear to be desirable when comets intersect meteor streams.

Type
Part IV/Physical Processes in Comets
Copyright
Copyright © Reidel 1972 

References

Biermann, L. and Lüst, Rh.: 1965, Mem. Soc. Roy. Sci. Liège Ser. 5 12, 329.Google Scholar
Dolginov, A. Z.: 1967, Astron. Zh. 44, 434.Google Scholar
Dolginov, A. Z. and Gnedin, Yu. N.: 1966, Icarus 5, 64.Google Scholar
Dolginov, A. Z., Gnedin, Yu. N., and Novikov, G. G.: 1971, Planetary Space Sci. 19, 143.Google Scholar
Hamel, B. B. and Willis, D. R.: 1966, Phys. Fluids 9, 829.Google Scholar
Whipple, F. L.: 1950, Astrophys. J. 111, 375.Google Scholar