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Bolometric light curves of aspherical shock breakout

Authors :
Irwin, Christopher
Linial, Itai
Nakar, Ehud
Piran, Tsvi
Sari, Re'em
Irwin, Christopher
Linial, Itai
Nakar, Ehud
Piran, Tsvi
Sari, Re'em
Publication Year :
2021

Abstract

The shock breakout emission is the first light that emerges from a supernova. In the spherical case it is characterized by a brief UV flash. In an axisymmetric, non-spherical prolate explosion, the shock first breaches the surface along the symmetry axis, then peels around to larger angles, producing a breakout light curve which may differ substantially from the spherically symmetric case. We study the emergence of a non-relativistic, bipolar shock from a spherical star, and estimate the basic properties of the associated bolometric shock breakout signal. We identify four possible classes of breakout light curves, depending on the degree of asphericity. Compared to spherical breakouts, we find that the main distinguishing features of significantly aspherical breakouts are 1) a longer and fainter initial breakout flash and 2) an extended phase of slowly-declining, or even rising, emission which is produced as ejecta flung out by the oblique breakout expand and cool. We find that the breakout flash has a maximum duration of roughly $\sim R_*/v_{\rm bo}$ where $R_*$ is the stellar radius and $v_{\rm bo}$ is the velocity of the fastest-moving ejecta. For a standard Wolf--Rayet progenitor, the duration of the X-ray flash seen in SN 2008D exceeds this limit, and the same holds true for the prompt X-ray emission of low-luminosity GRBs such as GRB 060218. This suggests that these events cannot be explained by an aspherical explosion within a typical Wolf--Rayet star, implying that they originate from non-standard progenitors with larger breakout radii.<br />Comment: 21 pages, 9 figures, accepted for publication in MNRAS

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1312088505
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1093.mnras.stab2705