An ultra-massive white dwarf with a mixed hydrogen-carbon atmosphere as a likely merger remnant

Hollands, M. A.; Tremblay, P. -E.; Gänsicke, B. T.; Camisassa, M. E.; Koester, D.; Aungwerojwit, A.; Chote, P.; Córsico, A. H.; Dhillon, V. S.; Gentile-Fusillo, N. P.; Hoskin, M. J.; Izquierdo, P.; Marsh, T. R.; Steeghs, D.
Referencia bibliográfica

Nature Astronomy

Fecha de publicación:
3
2020
Número de autores
14
Número de autores del IAC
2
Número de citas
37
Número de citas referidas
34
Descripción
White dwarfs are dense, cooling stellar embers consisting mostly of carbon and oxygen1, or oxygen and neon (with a few per cent carbon) at higher initial stellar masses2. These stellar cores are enveloped by a shell of helium, which in turn, is usually surrounded by a layer of hydrogen, generally prohibiting direct observation of the interior composition. However, carbon is observed at the surface of a sizeable fraction of white dwarfs3,4, sometimes with traces of oxygen, and is thought to be dredged up from the core by a deep helium convection zone5,6. In these objects, only traces of hydrogen are found7,8, as large masses of hydrogen are predicted to inhibit hydrogen-helium convective mixing within the envelope9. We report the identification of WD J055134.612+413531.09, an ultra-massive (1.14 solar masses (M☉)) white dwarf with a unique carbon-hydrogen mixed atmosphere (atomic ratio C/H = 0.15). Our analysis of the envelope and interior indicates that the total hydrogen and helium mass fractions must be several orders of magnitude lower than predictions of single-star evolution10: less than 10-9.5 and 10-7.0, respectively. Due to the fast kinematics (129 ± 5 km s-1 relative to the local standard of rest), large mass and peculiar envelope composition, we argue that WD J0551+4135 is consistent with formation from the merger of two white dwarfs in a tight binary system11-14.
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