English

The division between weak and strong explosions from failed supernovae

High Energy Astrophysical Phenomena 2023-08-10 v1 Fluid Dynamics

Abstract

Some massive stars likely fail to produce core-collapse supernovae, but these failed supernovae (FSNe) can generate an electromagnetic outburst prior to the disappearance of the star, as the mass lost to neutrinos during the stellar core-collapse results in the formation and breakout of a second shock. We show that when the mass lost to neutrinos is sufficiently small, there are two self-similar solutions that describe the propagation of a weak shock into a hydrodynamically expanding envelope that simultaneously yield accretion onto the black hole. The larger-Mach number solution is unstable and yields the minimum Mach number that a shock must have to strengthen into the energy-conserving regime. Above a critical mass loss there are no weak-shock solutions, implying that there are only strong explosions if the neutrino mass loss is above a critical value, and this value is a few percent of the mass of the star (and is physically achievable) for typical parameters. Our results imply that the fate of the explosion from a FSN -- weak with little to no mass ejection or strong with the expulsion of the majority of the envelope -- is a sensitive function of the stellar properties and the neutrino mass loss. We also show that there is a second type of self-similar solution for the shock that results in the ``settling'' of the gas near the compact object, which may be applicable to non-terminal stellar eruptions and the response of a gaseous disc to gravitational-wave induced mass loss from a binary black hole merger.

Keywords

Cite

@article{arxiv.2308.04486,
  title  = {The division between weak and strong explosions from failed supernovae},
  author = {Eric R. Coughlin},
  journal= {arXiv preprint arXiv:2308.04486},
  year   = {2023}
}

Comments

23 pages, 17 figures, submitted

R2 v1 2026-06-28T11:51:11.575Z