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Inferring mode inertias in evolved solar-like stars

Authors :
Benomar, O.
Belkacem, K.
Bedding, T. R.
Stello, D.
Di Mauro, M. P.
Ventura, R.
Mosser, B.
Goupil, M. J.
Samadi, R.
Garcia, R. A.
Source :
2014, ApJ, 781, L29
Publication Year :
2014

Abstract

Asteroseismology of evolved solar-like stars is experiencing a growing interest due to the wealth of observational data from space-borne instruments such as the \emph{CoRoT} and \emph{Kepler} spacecraft. In particular, the recent detection of mixed modes, which probe both the innermost and uppermost layers of stars, paves the way for inferring the internal structure of stars along their evolution through the subgiant and red giant phases. Mixed modes can also place stringent constraints on the physics of such stars and on their global properties (mass, age, etc...). Here, using two \emph{Kepler} stars (KIC 4351319 and KIC 6442183), we demonstrate that measurements of mixed mode characteristics allow us to estimate the mode inertias, providing a new and additional diagnostics on the mode trapping and subsequently on the internal structure of evolved stars. We however stress that the accuracy may be sensitive to non-adiabatic effects.<br />Comment: ApJ Letter

Details

Database :
arXiv
Journal :
2014, ApJ, 781, L29
Publication Type :
Report
Accession number :
edsarx.1401.5152
Document Type :
Working Paper
Full Text :
https://doi.org/10.1088/2041-8205/781/2/L29