Constructing a one-solar-mass evolutionary sequence using asteroseismic data from Kepler

V. Silva Aguirre*, W. J. Chaplin, J. Ballot, S. Basu, T. R. Bedding, A. M. Serenelli, G. A. Verner, A. Miglio, M. J.P.F.G. Monteiro, A. Weiss, T. Appourchaux, A. Bonanno, A. M. Broomhall, H. Bruntt, T. L. Campante, L. Casagrande, E. Corsaro, Y. Elsworth, R. A. García, P. GaulmeR. Handberg, S. Hekker, D. Huber, C. Karoff, S. Mathur, B. Mosser, D. Salabert, R. Schönrich, S. G. Sousa, D. Stello, T. R. White, J. Christensen-Dalsgaard, R. L. Gilliland, S. D. Kawaler, H. Kjeldsen, G. Houdek, T. S. Metcalfe, J. Molenda-Akowicz, M. J. Thompson, D. A. Caldwell, J. L. Christiansen, B. Wohler

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

36 Citations (Scopus)


Asteroseismology of solar-type stars has entered a new era of large surveys with the success of the NASA Kepler mission, which is providing exquisite data on oscillations of stars across the Hertzsprung-Russell diagram. From the time-series photometry, the two seismic parameters that can be most readily extracted are the large frequency separation (Δν) and the frequency of maximum oscillation power (νmax). After the survey phase, these quantities are available for hundreds of solar-type stars. By scaling from solar values, we use these two asteroseismic observables to identify for the first time an evolutionary sequence of 1 M field stars, without the need for further information from stellar models. Comparison of our determinations with the few available spectroscopic results shows an excellent level of agreement. We discuss the potential of the method for differential analysis throughout the main-sequence evolution and the possibility of detecting twins of very well-known stars.

Original languageEnglish
Article numberL2
JournalAstrophysical Journal Letters
Issue number1
Publication statusPublished - 10 Oct 2011
Externally publishedYes


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