Home > Science Articles > Peer Reviewed Articles > A photometric mode identification method, including an improved non-adiabatic treatment of the atmosphere |
Dupret, M.-A. ; De Ridder, J. ; De Cat, P. ; Aerts, C. ; Scuflaire, R. ; Noels, A. ; Thoul, A.
published in Astronomy and Astrophysics, 398, pp. 677-685 (2003)
Abstract: We present an improved version of the method of photometric mode identification of Heynderickx et al. (\cite{hey}). Our new version is based on the inclusion of precise non-adiabatic eigenfunctions determined in the outer stellar atmosphere according to the formalism recently proposed by Dupret et al. (\cite{dup}). Our improved photometric mode identification technique is therefore no longer dependent on ad hoc parameters for the non-adiabatic effects. It contains the complete physical conditions of the outer atmosphere of the star, provided that rotation does not play a key role. We apply our method to the two slowly pulsating B stars HD 74560 and HD 138764 and to the beta Cephei star EN (16) Lac. Besides identifying the degree l of the pulsating stars, our method is also a tool for improving the knowledge of stellar interiors and atmospheres, by imposing constraints on parameters such as the metallicity and the mixing-length parameter alpha (a procedure we label non-adiabatic asteroseismology). The non-adiabatic eigenfunctions needed for the mode identification are available upon request from the authors.
DOI: 10.1051/0004-6361:20021679
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Royal Observatory of Belgium > Astronomy & Astrophysics
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