The impact of element diffusion on the formation and evolution of helium white dwarf stars

被引:39
作者
Althaus, LG [1 ]
Serenelli, AM [1 ]
Benvenuto, OG [1 ]
机构
[1] Natl Univ La Plata, Fac Ciencias Astron & Geofis, RA-1900 La Plata, Argentina
关键词
diffusion; stars : evolution; stars : interiors; pulsars : general; pulsars : individual : PSR B1855+09; white dwarfs;
D O I
10.1046/j.1365-8711.2001.04324.x
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
The aim of this work is to investigate the effect of element diffusion on the evolution of helium white dwarfs. To this end, we couple the multicomponent flow equations that describe gravitational settling, chemical and thermal diffusion to an evolutionary code. We compute the evolution of a set of helium white dwarf models with masses ranging from 0.169 to 0.406 M-.. In particular, several low-mass white dwarfs have been found in binary systems as companion to millisecond pulsars. In these systems, pulsar emission is activated by mass transfer episodes so that, if we place the zero-age point at the end of such mass transfer, then the pulsar and the white dwarf ages should be equal. Interestingly enough, available models of helium white dwarfs neglect element diffusion, Using such models, good agreement has been found between the ages of the components of the PSR J1012+5307 system. However, recent observations of the PSR B1855+09 system cast doubts on the correctness of such models, which predict a white dwarf age twice as long as the spin-down age of the pulsar. In this work, we find that element diffusion induces thermonuclear hydrogen shell flashes for models in the mass interval 0.18 less than or similar to M/M-. less than or similar to 0.41. We show, in particular, that the occurrence of these diffusion-induced flashes eventually leads to white dwarf models with hydrogen envelope masses too small to support any further nuclear burning, thus implying much shorter cooling ages than in the case when diffusion is neglected. In particular, excellent agreement is found between the ages of PSR B1855 +09 system components, solving the age discrepancy from first principles.
引用
收藏
页码:617 / 622
页数:6
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