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Pair-instability supernovae of fast rotating stars

Ke-Jung Chen

Department of Astronomy & Astrophysics, University of California, 1156 High St., Santa Cruz, CA 95064, USA

School of Physics and Astronomy, University of Minnesota, 116 Church St., Minneapolis, MN 55455, USA

https://doi.org/10.1142/S0217732315300025Cited by:7 (Source: Crossref)

Abstract

We present 2D simulations of pair-instability supernovae considering rapid rotation during their explosion phases. Recent studies of the Population III (Pop III) star formation suggested that these stars could be born with a mass scale about 100 M_⊙ and with a strong rotation. Based on stellar evolution models, these massive Pop III stars might have died as highly energetic pair-instability supernovae. We perform 2D calculations to investigate the impact of rotation on pair-instability supernovae. Our results suggest that rotation leads to an aspherical explosion due to an anisotropic collapse. If the first stars have a 50% of keplerian rotational rate of the oxygen core before their pair-instability explosions, the overall ⁵⁶Ni production can be significantly reduced by about two orders of magnitude. An extreme case of 100% keplerian rotational rate shows an interesting feature of fluid instabilities along the equatorial plane caused by non-synchronized and non-isotropic ignitions of explosions, so that the shocks run into the in-falling gas and generate the Richtmyer–Meshkov instability.

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