http://arxiv.org/abs/1508.02402
The merger of two white dwarfs (WDs) has for many years not been considered as the favoured model for the progenitor system of type Ia supernovae (SNe Ia). But recent years have seen a change of opinion as a number of studies, both observational and theoretical, have concluded that they should contribute significantly to the observed type Ia supernova rate. In this paper, we study the ignition and propagation of detonation through post-merger remnants and we follow the resulting nucleosynthesis up to the point where a homologous expansion is reached. In our study we cover the entire range of WD masses and compositions. For the emergence of a detonation we study several setups, guided by both merger remnants from our own simulations and by results taken from the literature. We carefully compare the nucleosynthetic yields of successful explosions with SN Ia observations. Only three of our models are consistent with all the imposed constraints and potentially lead to a standard type Ia event. The first one, a $0.45\,M_\odot\ {\rm helium} + 0.9 \,M_\odot$ carbon-oxygen WD system produces a sub-luminous, SN 1991bg-like event while the other two, a $0.45\,M_\odot\ {\rm helium} + 1.1\,M_\odot$ oxygen-neon WD system and a $1.05+1.05\,M_\odot$ system with two carbon-oxygen WDs, are good candidates for common SNe Ia.
M. Dan, J. Guillochon, M. Bruggen, et. al.
Wed, 12 Aug 15
1/50
Comments: 19 pages with 7 figures and 10 tables; submitted to MNRAS
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