Hostname: page-component-cd9895bd7-fscjk Total loading time: 0 Render date: 2024-12-29T07:27:30.919Z Has data issue: false hasContentIssue false

A Simplified Model for a Nonlinear Tidal Effect on Accretion Disks in CVS

Published online by Cambridge University Press:  12 April 2016

Zhong-Yong Zhang
Affiliation:
Beijing Astronomical Observatory, Chinese Academy of Sciences, Beijing 100080, People’s Republic ofChina
Jian-Sheng Chen
Affiliation:
Beijing Astronomical Observatory, Chinese Academy of Sciences, Beijing 100080, People’s Republic ofChina

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.

This paper investigates the tidal effect on accretion disk in CVs and sets up a simplified model in which the secondary’s gravitation is substituted by a mean tidal torque. We find that a linear tidal torque will not be able to maintain an equilibrium disk. By using the result of the radius of the equilibrium disk approximately equals to the tidal radius, which was obtained by using the two dimensional numerical simulation invoking nonlinear tidal effect, we give the modified tidal dissipation function for our simplified model which could be used to interpret the outburst of the dwarf nova with tidal effect. The paper also shows that the radius of an equilibrium disk with a torus is slightly small than the Lubow-Shu radius, and the tidal effect may also cause the cycle of quiescence-superoutburst in addition to the cycle of quiescence-outbursts-superoutburst.

Type
III. Models
Copyright
Copyright © Kluwer 1993

References

Chen, J.S., Liu, X.W., and Wei, M.Z.: 1991, Astronomy and Astrophysics 242, 397.Google Scholar
Frank, J., King, A.R., and Raine, D.J.: 1985, Accretion Power in Astrophysics (Cambridge University Press, Cambridge), p. 60.Google Scholar
Lubow, S.H. and Shu, F.H.: 1975, Astrophysical Journal 198, 383.Google Scholar
Mayer-Hofmeister, and Ritter, H.: 1991, preprint.Google Scholar
Osaki, Y.: 1989a, in Theory of Accretion Disks, eds. Meyer, F. et al. (Kluwer Academic Publishers), p. 183.Google Scholar
Osaki, Y.: 1989b, Publications of the ASJ 41, 1005.Google Scholar
Paczynski, B.: 1977, Astrophysical Journal 216, 822.Google Scholar
Papaloizou, J., Pringle, J.E.: 1977, Monthly Notices of the RAS 181, 441.CrossRefGoogle Scholar
Pringle, J.E.: 1981, Annual Review of Astronomy and Astrophysics 19, 137.Google Scholar
Ritter, H.: 1990, Catalogue of Cataclysmic Binaries, Low-Mass X-ray Binaries and Related Objects (fifth edition).Google Scholar
Smak, J.: 1983, Astrophysical Journal 272, 234.Google Scholar
Smak, J.: 1984, Acta Astron. 34, 161.Google Scholar
Whitehurst, R.: 1988, Monthly Notices of the RAS 232, 35.CrossRefGoogle Scholar
Whitehurst, R.: 1989, in Theory of Accretion Disks, eds. Meyer, F. et al., p. 213.CrossRefGoogle Scholar
Whitehurst, R.: 1991, Monthly Notices of the RAS 249, 25.CrossRefGoogle Scholar