Supernova-induced binary-interaction-powered supernovae: a model for SN2022jli
Abstract
We present 3D hydrodynamical modelling of supernova-induced binary-interaction-powered supernovae; a scenario proposed for the peculiar type Ic supernova SN2022jli. In this scenario, supernova ejecta of a stripped-envelope star impact a close-by stellar companion, temporarily inflating the envelope. The expanded envelope engulfs the neutron star, causing strong mass accretion at super-Eddington rates. Feedback from the accretion powers the supernova light curve with periodic undulations. Our simulations capture key features of SN2022jli, both the overall decline and the superimposed undulations of the light curve. Based on our parameter study, we find that (i) the accretion feedback should be sufficiently geometrically confined and (ii) the eccentricity of the post-supernova binary orbit should be to sustain a high accretion rate and match the low undulation amplitude () of SN2022jli. Different combinations of parameters could account for other supernovae like SN2022mop, SN2009ip and SN2015ap, which have varying undulation periods and amplitudes. We also discuss possible explanations for other key features of SN2022jli such as the -ray detection at and the rapid optical drop at . Finally, we speculate on the future evolution of the system and its relation to existing neutron star binaries.
Keywords
Cite
@article{arxiv.2507.09974,
title = {Supernova-induced binary-interaction-powered supernovae: a model for SN2022jli},
author = {Ryosuke Hirai and Philipp Podsiadlowski and Peter Hoeflich and Maxim V. Barkov and Conrad Chan and David Liptai and Shigehiro Nagataki},
journal= {arXiv preprint arXiv:2507.09974},
year = {2025}
}
Comments
22 pages, 18 figures, accepted for publication in The Astrophysical Journal