SN 2024iss: A Double-peaked Type IIb Supernova with Evidence of Circumstellar Interaction
Abstract
We present optical, ultraviolet, and X-ray observations of supernova (SN) 2024iss, a Type IIb SN that shows a prominent double-peaked light curve. We modeled the first peak with a semianalytical shock-cooling model and the X-ray emission with a free-free model. We compare the envelope radius and mass-loss rate with other Type IIb SNe to explore the relationships between the progenitor envelope and the circumstellar material (CSM). The shock-cooling peak in the V-band light curve reached MV = -17.33 0.26mag, while the 56Ni-powered second peak attained MV = -17.43 0.26mag. Early spectra show an photospheric velocity of 19,400\,km\,s-1 at 3.82days from the Hα P~Cygni profile. The Balmer lines persist at least +87 days after the explosion, characterizing hydrogen-rich ejecta. Modeling the first light-curve peak suggests an extended envelope with a mass of 0.110.04\,M and a radius of 24443~R. Fitting the second light-curve peak with an Arnett-like model indicates a typical 56Ni mass of 0.1170.013~M and a relatively low ejecta mass of 1.2720.343\,M. X-ray observations reveal bright thermal bremsstrahlung emission and indicate a mass-loss rate of 1.6×10-5\ M \ yr-1. SN 2024iss occupies a transitional position between the two subclasses of extended (eIIb) and compact (cIIb) Type IIb SNe. Its envelope radius and pre-explosion mass-loss rate appear to be correlated as theoretically predicted. The observational properties of SN 2024iss are compatible with a binary interaction scenario being the dominant mechanism for envelope stripping. Furthermore, the low column density of neutral hydrogen suggests a compact CSM with an outer radius of 1.3×1014 cm, indicating that the progenitor star experienced eruptive mass loss within 4\,yr of its terminal explosion.
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