2012ApJ...746..144Z -
Astrophys. J., 746, 144 (2012/February-3)
The initial-final mass relation among white dwarfs in wide binaries.
ZHAO J.K., OSWALT T.D., WILLSON L.A., WANG Q. and ZHAO G.
Abstract (from CDS):
We present the initial-final mass relation derived from 10 white dwarfs in wide binaries that consist of a main-sequence star and a white dwarf. The temperature and gravity of each white dwarf were measured by fitting theoretical model atmospheres to the observed spectrum using a χ2 fitting algorithm. The cooling time and mass were obtained using theoretical cooling tracks. The total age of each binary was estimated from the chromospheric activity of its main-sequence component to an uncertainty of about 0.17 dex in log t. The difference between the total age and white dwarf cooling time is taken as the main-sequence lifetime of each white dwarf. The initial mass of each white dwarf was then determined using stellar evolution tracks with a corresponding metallicity derived from spectra of their main-sequence companions, thus yielding the initial-final mass relation. Most of the initial masses of the white dwarf components are between 1 and 2 M☉. Our results suggest a correlation between the metallicity of a white dwarf's progenitor and the amount of post-main-sequence mass loss it experiences–at least among progenitors with masses in the range of 1-2 M☉. A comparison of our observations to theoretical models suggests that low-mass stars preferentially lose mass on the red giant branch.
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Journal keyword(s):
stars: activity - white dwarfs
Simbad objects:
37
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