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Tests of Evolution Models Using Eclipsing Binaries

Published online by Cambridge University Press:  30 March 2016

J. Andersen*
Affiliation:
Niels Bohr Institute for Astronomy, Physics, and Geophysics Astronomical Observatory Brorfeldevej 23 DK - 4340 Tølløse, Denmark

Extract

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Stellar models are the means by which we describe and understand the distribution of stars in the HR diagram. A stellar model is, in principle, completely specified by the three fundamental parameters mass, chemical composition, and age. Comparing the properties of models and real stars with the same parameters will tell us if our recipe for constructing stellar models is realistic. Unfortunately, the only star for which all three are known independently of stellar models is the Sun. For stars of other masses and ages we must devise observational tests in which at least one fundamental parameter is unknown. Two such popular test objects are double-lined eclipsing binaries and star clusters.

In suitable eclipsing binaries we can determine both masses and chemical composition; the absolute age is unknown, but the same for both stars. Since evolution depends most sensitively on the mass, eclipsing binaries provide a very direct test of the models, but only for two points on a single isochrone. In star clusters, neither ages nor individual masses are known, but the detailed shape and population of a well-observed cluster sequence in the HR diagram provide a number of additional probes into the models.

Type
II. Joint Discussions
Copyright
Copyright © Kluwer 1995

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