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Multi-Phase Shock Cooling Emission in Ultra-Stripped Supernovae

Published 11 Mar 2025 in astro-ph.HE and astro-ph.SR | (2503.08790v1)

Abstract: Ultra-stripped and Type Ibn supernovae (USSNe and SNe Ibn, respectively) are fast-evolving, hydrogen-poor transients that often show signs of interaction with dense circumstellar material (CSM). Wu & Fuller (2022) identify a mass range for helium-core stars in which they expand significantly during core oxygen/neon burning, resulting in extreme late-stage mass loss in tight binaries ($P\sim1-100\,{\rm days}$). Here we explore the resulting light curves from a subset of models from Wu & Fuller (2022) and find that in some cases they can exhibit two phases of shock cooling emission (SCE). The first SCE is attributed to the circumbinary material, and the second SCE is from the extended helium-burning envelope of the exploding star. Since SCE luminosity is roughly proportional to the initial radius of the emitting material, events that exhibit both phases of SCE provide the exciting opportunity of measuring both the extent of the CSM and the radius of the exploding star. These light curves are explored with both analytic arguments and numerical modeling, and from this we identify the parameter space of CSM mass, helium envelope mass, and nickel mass, for which the helium envelope SCE will be visible. We provide a qualitative comparison of these models to two fast-evolving, helium-rich transients, SN2019kbj and SN2019dge. The similarity between these events and our models demonstrates that this extreme binary mass loss mechanism may explain some SNe Ibn and USSNe.

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