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Sunspot Seismology: The Interaction of Solar p-Modes with a Sunspot

Published online by Cambridge University Press:  12 April 2016

John H. Thomas
John H. Thomas*
Affiliation:
Department of Mechanical Engineering, Department of Physics and Astronomy, and C. E. K. Mees Observatory, University of Rochester, Rochester, NY14627

Abstract

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Progress in sunspot seismology is briefly reviewed. New observations of the absorption of p-modes by a sunspot (Bogdan, Brown, Lites, and Thomas 1993) show that the absorption coefficient (averaged over frequency and azimuthal order) increases with horizontal wavenumber to a maximum near k = 0.9 Mm−1 and then decreases monotonically to zero at about k = 1.5 Mm−1. The absorption along individual p-mode ridges shows a sinusoidal-like modulation, which may be an important feature for comparison with theory. Results for the quiet Sun show no net absorption, but do show apparent emission along p1 over the same range of k where the sunspot shows its greatest absorption. This behavior, and the overall decrease in absorption at higher wavenumbers, can be explained as an effect of the decreasing lifetime of p-modes with increasing wavenumber k (increasing mode degree l).

Type
Session 9. Convections and Oscillation in Active Regions
Information
International Astronomical Union Colloquium , Volume 141: The Magnetic and Velocity Fields of Solar Active Regions , 1993 , pp. 513 - 521
Copyright
Copyright © Astronomical Society of the Pacific 1993

References

Abdelatif, T.E., Lites, B.W., and Thomas, J.H. 1986, Ap. J., 311, 1015.CrossRefGoogle Scholar
Abdelatif, T.E., and Thomas, J.H. 1987, Ap. J., 320, 884.CrossRefGoogle Scholar
Bogdan, T.J. 1992, in Sunspots: Theory and Observations, ed. Thomas, J. H. and Weiss, N. O. (Dordrecht: Kluwer), p. 345.CrossRefGoogle Scholar
Bogdan, T.J., Brown, T.M., Lites, B.W., and Thomas, J.H. 1993, Ap.J., in pressGoogle Scholar
Bogdan, T.J., and Zweibel, E.G. 1987, Ap. J., 312, 444.Google Scholar
Braun, D. C., Duvall, T.L. Jr., and LaBonte, B.J. 1987, Ap. J., 319, L27.Google Scholar
Braun, D. C, Duvall, T.L. Jr., and LaBonte, B.J. 1988, Ap. J., 335, 1015.CrossRefGoogle Scholar
Braun, D. C, Duvall, T.L. Jr., LaBonte, B.J., Jefferies, S.M., Harvey, J. W., and Pomerantz, M.A. 1992, Ap. J., 391, L113.Google Scholar
Deinzer, W. 1965, Ap. J., 141, 548.Google Scholar
Korzennik, S.G. 1990, Ph.D. dissertation, University of California, LosAngeles.Google Scholar
November, L.J. 1984, in Small-Scale Dynamical Processes in Quiet Stellar Atmospheres, ed. Keil, S. L. (Sunspot, NM: National Solar Observatory), p. 74.Google Scholar
November, L.J. 1991, in Solar Polarimetry, ed November, L. J. (Sunspot, NM: National Solar Observatory), p. 149.Google Scholar
Spruit, H.C. 1991, in Challenges to Theories of the Structure of Moderate Mass Stars, Lecture Notes in Physics No. 388, ed. Toomre, J. and Gough, D.O. (Berlin: Springer-Verlag), p. 121.Google Scholar
Spruit, H. C and Bogdan, T.J. 1992, Ap. J., 391, L109.CrossRefGoogle Scholar
Thomas, J.H., Cram, L.E., and Nye, A.H. 1982, Nature, 297, 485.CrossRefGoogle Scholar
Thomas, J.H., and Weiss, N.O. (eds.) 1992, Sunspots: Theory and Observations (Dordrecht: Kluwer).CrossRefGoogle Scholar