English

Pulsational Pair-instability Supernovae. I. Pre-collapse Evolution and Pulsational Mass Ejection

High Energy Astrophysical Phenomena 2020-01-01 v4 Solar and Stellar Astrophysics

Abstract

We calculate the evolution of massive stars, which undergo pulsational pair-instability (PPI) when the O-rich core is formed. The evolution from the main-sequence through the onset of PPI is calculated for stars with the initial masses of 8014080 - 140 MM_{\odot} and metallicities of Z=1031.0Z = 10^{-3} - 1.0 ZZ_\odot. Because of mass loss, Z0.5Z \leq 0.5 ZZ_\odot is necessary for stars to form He cores massive enough (i.e., mass >40 M>40 ~M_\odot) to undergo PPI. The hydrodynamical phase of evolution from PPI through the beginning of Fe core collapse is calculated for the He cores with masses of 4062 M40 - 62 ~M_\odot and Z=0Z = 0. During PPI, electron-positron pair production causes a rapid contraction of the O-rich core which triggers explosive O-burning and a pulsation of the core. We study the mass dependence of the pulsation dynamics, thermodynamics, and nucleosynthesis. The pulsations are stronger for more massive He cores and result in such a large amount of mass ejection such as 3133 - 13 MM_\odot for 4062 M40 - 62 ~M_\odot He cores. These He cores eventually undergo Fe-core collapse. The 64 M64 ~M_\odot He core undergoes complete disruption and becomes a pair-instability supernova. The H-free circumstellar matter ejected around these He cores is massive enough for to explain the observed light curve of Type I (H-free) superluminous supernovae with circumstellar interaction. We also note that the mass ejection sets the maximum mass of black holes (BHs) to be 50\sim 50 MM_{\odot}, which is consistent with the masses of BHs recently detected by VIRGO and aLIGO.

Keywords

Cite

@article{arxiv.1901.11136,
  title  = {Pulsational Pair-instability Supernovae. I. Pre-collapse Evolution and Pulsational Mass Ejection},
  author = {Shing-Chi Leung and Ken'ichi Nomoto and Sergei Blinnikov},
  journal= {arXiv preprint arXiv:1901.11136},
  year   = {2020}
}

Comments

33 pages, 57 figures, submitted at 29 January 2019, revised at 16 October 2019, accepted at 20 October 2019; published 11 December 2019. References and metadata updated

R2 v1 2026-06-23T07:27:44.458Z