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Shock-cooling Constraints via Early-time Observations of the Type IIb SN 2022hnt

Joseph Farah, D. A. Howell, G. Terreran, I. Irani, Jonathan Morag, C. Pellegrino, C. McCully, Megan Newsome, Estefania Padilla Gonzalez, K. Azalee Bostroem, G. Hosseinzadeh, Moira Andrews, Logan J. Prust, D. Hiramatsu

2025The Astrophysical Journal8 citationsDOIOpen Access PDF

Abstract

Abstract We report the results of a rapid follow-up campaign on the Type IIb supernova (SN) 2022hnt. We present a daily, multiband, photometric follow-up using the Las Cumbres Observatory, the Zwicky Transient Facility, the orbiting Swift observatory, and the Asteroid Terrestrial-impact Last Alert System. A distinctive feature in the light curve of SN 2022hnt and other IIb SNe is an early narrow peak prior to the 56 Ni peak caused by rapid shock cooling of the hydrogen envelope, which can serve as an important probe of the properties of the massive progenitor star in the moments before explosion. Using SN 2022hnt as a case study, we demonstrate a framework of considerations for the application of shock cooling models to type IIb SNe, outlining a consistent procedure for future surveys of Type IIb SNe progenitor and explosion properties. We fit several recent models of shock-cooling emission and obtain progenitor radii between ∼50 and ∼100 R ⊙ , as well as hydrogen-enriched envelope masses between ∼0.01 and ∼0.1 M ⊙ , both consistent with values for other IIb SNe. One of these models is the model of J. Morag et al., marking the first time this model has been applied to a Type IIb SN. Finally, we evaluate contrasting predictions between shock-cooling models to construct a fiducial parameter set that can be used for comparison to other SNe.

Topics & Concepts

SupernovaPhysicsLight curveAstrophysicsObservatoryEjectaType (biology)Shock (circulatory)GeologyInternal medicineMedicinePaleontologyGamma-ray bursts and supernovaeAstrophysical Phenomena and ObservationsPulsars and Gravitational Waves Research
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