Hostname: page-component-848d4c4894-r5zm4 Total loading time: 0 Render date: 2024-06-19T04:41:07.019Z Has data issue: false hasContentIssue false
  • English
  • Français

Models of Saturn's Rings Which Satisfy the Optical Observations

Published online by Cambridge University Press:  14 August 2015

Y. Kawata  and
W. M. Irvine
Y. Kawata
Affiliation:
Dept. of Physics and Astronomy, University of Massachusetts, Amherst, Mass., U.S.A.
W. M. Irvine
Affiliation:
Dept. of Physics and Astronomy, University of Massachusetts, Amherst, Mass., U.S.A.

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

A theoretical model of Saturn's rings is investigated which includes the shadowing effect and realistic anisotropic phase functions for the ring particles. The effects of multiple scattering and the finite size of the Sun, including the penumbra, are rigorously included. The permissible range of the relevant parameters, including optical thickness, single scattering albedo, volume density, and phase function are investigated by comparing the theoretical results to observations of the ring brightness vs phase angle, wavelength, and elevation of the Sun and Earth. Anisotropic scattering by the ring particles is necessary in order to match the observations. The colour dependence of the opposition effect is interpreted in terms of the albedo spectrum of the ring particles.

Type
Part III Outer Planets and Their Satellites
Information
Symposium - International Astronomical Union , Volume 65: Exploration of the Planetary System , 1974 , pp. 441 - 464
Copyright
Copyright © Reidel 1974 

References

Bobrov, M. S.: 1970, Solar System Res. 4, 127 (English transl.).Google Scholar
Camichel, H.: 1958, Ann. Astrophys. Paris 21, 231.Google Scholar
Cook, A. F., Franklin, F. A., and Palluconi, F. D.: 1973, Icarus 18, 317.Google Scholar
Focas, J. and Dollfus, A.: 1969, Compt. Rend. Acad. Sci. Paris 268, 100.Google Scholar
Franklin, F. A. and Cook, A. F.: 1965, Astron. J. 70, 704.CrossRefGoogle Scholar
Goldstein, R. M. and Morris, G. A.: 1973, Icarus 20, 260.Google Scholar
Hansen, J. E.: 1969, Astrophys. J. 155, 565.Google Scholar
Irvine, W. M.: 1964, Bull. Astron. Inst. Neth. 17, 266.Google Scholar
Irvine, W. M., 1966, J. Geophys. Res. 71, 2931.Google Scholar
Irvine, W. M. and Lane, A. P.: 1973, Icarus 18, 171.Google Scholar
Kharitonova, G. A. and Teifel, V. G.: 1973, Astron. Tsirk., No. 747.Google Scholar
Kiladze, R. I.: 1969, Abastumani Astrophys. Obs. Bull., No. 37, 151.Google Scholar
Lebofsky, L. A., Johnson, T. V., and McCord, T. B.: 1970, Icarus 13, 226.Google Scholar
Pierce, A. K. and Waddell, J. H.: 1961, Mem. Roy. Astron. Soc. 68, 89.Google Scholar
Price, M. J.: 1973, Astron. J. 78, 113.Google Scholar
Rougier, G.: 1934, Astronomie 48, 220; 48, 281.Google Scholar
Seeliger, H.: 1887, Abhandl. Bayer. Akad. Wiss., Math.-Naturn., Kl. II 16, 405516.Google Scholar
Seeliger, H.: 1895, Abhandl. Bayer. Akad. Wiss., Math.-Naturn., Kl. II 18, 1.Google Scholar
Van de Hulst, H. C.: 1948, Astrophys. J. 107, 220.Google Scholar
Van de Hulst, H. C.: 1957, Light Scattering by Small Particles, John Wiley & Sons, Inc., New York, p. 106.Google Scholar
Van de Hulst, H. C. and Irvine, W. M.: 1963, La physique des planètes, 11th Liège Astrophys. Symp., p. 78.Google Scholar
Veverka, J.: 1973, Icarus 20, 304.Google Scholar