Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-23T11:07:24.780Z Has data issue: false hasContentIssue false

Excitation Mechanisms of Oscillations in Stars

Published online by Cambridge University Press:  12 April 2016

Yoji Osaki*
Affiliation:
Department of Astronomy, University of Tokyo, Tokyo 113, Japan

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.

Excitation mechanisms of oscillations in stars are discussed, in particular on the problems of the Beta Cephei pulsations and of the solar oscillations. A long-standing mystery about the excitation mechanism of the Beta Cephei pulsations seems to have finally been solved, which is due to availability of the new “OPAL” opacities. The very mechanism is the classical к-mechanism, however, due to enhanced heavy element opacities at temperature around 2 × 105K. By using the new opacities, three independent groups have found pulsational instabilities for the fundamental radial mode and a few low-degree non-radial modes in Beta Cephei models. Stochastic excitation of solar oscillations by turbulent convection is then discussed. It is shown that the noise generation by quadrupole radiation concentrated at the top of the convection zone may well explain the frequency dependence of the observed solar acoustic power pumped into individual p-modes.

Type
VI. Asteroseismology: theory
Copyright
Copyright © Astronomical Society of the Pacific 1993

References

Balmforth, N.J. 1992, MNRAS, 255, 639.Google Scholar
Christensen-Dalsgaard, J., Gough, D.O., and Libbrecht, K.G. 1989, ApJ, 341, L103.Google Scholar
Cox, A, N. 1987, In Stellar Pulsation, Lecture Notes in Physics, Vol. 274, eds. Cox, A.N., Sparks, W.M. and Starrfield, S.G. (Springer-Verlag, Berlin), p.36.Google Scholar
Cox, A.N., Morgan, S.M., Rogers, F.J. and Iglesias, C.A. 1992, ApJ, 393, 272.CrossRefGoogle Scholar
Dziembowski, W. and Kubiak, M. 1981, Acta Astronomica, 31, 153.Google Scholar
Goldreich, P. and Keeley, D.A., 1977, ApJ, 212, 243.Google Scholar
Goldreich, P., and Kumar, P. 1988, ApJ, 326, 462.Google Scholar
Goldreich, P., and Kumar, P. 1990, ApJ, 363, 694.Google Scholar
Iglesias, C.A. Rogers, F.J. and Wilson, B.G. 1987, ApJ, 322, L45.CrossRefGoogle Scholar
Kiriakidis, M., El Eid, M.F. and Glatzel, W. 1992, MNRAS, 255, 1p.CrossRefGoogle Scholar
Kumar, P. and Goldreich, P. 1989, ApJ, 342, 558.Google Scholar
Lee, U. and Osaki, Y. 1982, PASJ, 34, 39.Google Scholar
Libbrecht, K.G. 1988, In Seismology of the Sun and Sun-like Stars, ed. Rolfe, E., ESA SP-286 (ESA Publication Division, Noordwijk), p.3.Google Scholar
Lighthill, M.J. 1952, Proc. Roy. Soc. London A, 211, 564.Google Scholar
Moskalik, P. and Dziembowski, W. 1992, A&A, 256, L5.Google Scholar
Osaki, Y. 1982, In Pulsations in Classical and Cataclysmic Variable Stars, ed. Cox, J.P. and Hansen, C.J. (Joint Institute for Laboratory Astrophysics, Boulder), p. 303.Google Scholar
Osaki, Y. 1986, In Highlights of Astronomy, ed. Swings, J.-P. (D. Reidel Publ. Co., Dordrecht), p. 247.Google Scholar
Osaki, Y. 1990, In Progress of Seismology of the Sun and Stars, eds. Osaki, Y. and Shibahashi, H. (Springer-Verlag, Berlin Heidelberg), p. 75.Google Scholar
Rogers, F.J. and Iglesias, C.A. 1992, ApJS, 79, 507.Google Scholar
Saio, H. and Cox, J.P. 1980, ApJ, 236, 549.Google Scholar
Seaton, M.J. 1992, In these proceedings.Google Scholar
Simon, N.R. 1982, ApJ, 260, L87.Google Scholar
Stellingwerf, R. 1978, AJ, 83, 1184.Google Scholar