English

Supernova explosions in active galactic nuclear discs

High Energy Astrophysical Phenomena 2021-07-13 v2 Astrophysics of Galaxies Solar and Stellar Astrophysics

Abstract

Active galactic nuclei (AGN) are prominent environments for stellar capture, growth and formation. These environments may catalyze stellar mergers and explosive transients, such as thermonuclear and core-collapse supernovae (SNe). SN explosions in AGN discs generate strong shocks, leading to unique observable signatures. We develop an analytical model which follows the evolution of the shock propagating in the disc until it eventually breaks out. We derive the peak luminosity, bolometric lightcurve, and breakout time. The peak luminosities may exceed 104510^{45} erg s1^{-1} and last from hours to days. The brightest explosions occur in regions of reduced density; either off-plane, or in discs around low-mass central black holes (106 M\sim 10^6\ M_\odot), or in starved subluminous AGNs. Explosions in the latter two sites are easier to observe due to a reduced AGN background luminosity. We perform suites of 1D Lagrangian radiative hydrodynamics SNEC code simulations to validate our results and obtain the luminosity in different bands, and 2D axisymmetric Eulerian hydrodynamics code HORMONE simulations to study the morphology of the ejecta and its deviation from spherical symmetry. The observed signature is expected to be a bright blue, UV, or X-ray flare on top of the AGN luminosity from the initial shock breakout, while the subsequent red part of the lightcurve will largely be unobservable. We estimate the upper limit for the total event rate to be R100 yr1 Gpc3\mathcal{R}\lesssim 100\ \rm yr^{-1}\ Gpc^{-3} for optimal conditions and discuss the large uncertainties in this estimate. Future high-cadence transient searches may reveal these events. Some existing tidal disruption event candidates may originate from AGN supernovae.

Keywords

Cite

@article{arxiv.2105.09953,
  title  = {Supernova explosions in active galactic nuclear discs},
  author = {Evgeni Grishin and Alexey Bobrick and Ryosuke Hirai and Ilya Mandel and Hagai B. Perets},
  journal= {arXiv preprint arXiv:2105.09953},
  year   = {2021}
}

Comments

Accepted to MNRAS

R2 v1 2026-06-24T02:18:59.068Z