Astronomy and Astrophysics – Astrophysics
Scientific paper
2008-06-17
Astrophys.J.L. 682 (2008) L109
Astronomy and Astrophysics
Astrophysics
4 pages, 4 figures, replaced with version accepted by The Astrophysical Journal Letters
Scientific paper
10.1086/591042
White dwarfs are the end-product of the lifes of intermediate- and low-mass stars and their evolution is described as a simple cooling process. Recently, it has been possible to determine with an unprecedented precision their luminosity function, that is, the number of stars per unit volume and luminosity interval. We show here that the shape of the bright branch of this function is only sensitive to the averaged cooling rate of white dwarfs and we propose to use this property to check the possible existence of axions, a proposed but not yet detected weakly interacting particle. Our results indicate that the inclusion of the emission of axions in the evolutionary models of white dwarfs noticeably improves the agreement between the theoretical calculations and the observational white dwarf luminosity function. The best fit is obtained for m_a cos^2 \beta ~ 5 meV, where m_a is the mass of the axion and cos^2 \beta is a free parameter. We also show that values larger than 10 meV are clearly excluded. The existing theoretical and observational uncertainties do not allow yet to confirm the existence of axions, but our results clearly show that if their mass is of the order of few meV, the white dwarf luminosity function is sensitive enough to detect their existence.
Catalan S.
Garcia-Berro Enrique
Isern Jordi
Torres Santiago
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