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(2025)
Twin Peaks: SN 2021uvy and SN 2022hgk in the Landscape of Double-peaked Stripped Envelope Supernovae.
Publications of the Astronomical Society of the Pacific, 137 (9).
094101-094101.
ISSN 0004-6280
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Twin Peaks SN 2021uvy and SN 2022hgk in the Landscape of Double peaked Stripped Envelope Supernovae.pdf - Published Version Available under License Creative Commons Attribution. Download (6MB) | Preview |
Abstract
In recent years, a class of stripped-envelope supernovae (SESNe) has emerged that show two distinct peaks in their light curves, where the first peak cannot be attributed to shock cooling emission. Such peculiar supernovae are often studied individually, explained by invoking some combination of powering mechanisms. However, they have seldom been discussed in the broader context of double-peaked SESNe. In this paper, we attempt to form a picture of the landscape of double-peaked SESNe and their powering mechanisms by adding two more objects—SN 2021uvy and SN 2022hgk. SN 2021uvy is a broad and luminous SN Ib with an unusually long rise of the first peak and constant color evolution with rising photospheric temperature during the second peak. Although its first peak is similar to that of SN 2019stc, their second peaks differ in properties, making it unique among double-peaked objects. SN 2022hgk shows striking photometric similarity to SN 2019cad and spectroscopic similarity to SN 2005bf, both of which have been suggested to be powered by a double-nickel distribution in their ejecta. We analyze their light curves and colors, compare them with a sample of other double-peaked published supernovae for which we have additional data, and analyze the light curve parameters of the sample. We observe a correlation (p-value ∼ 0.025) between the peak absolute magnitudes of the first and second peaks. The sample shows variety in the photometric and spectroscopic properties, and thus no single definitive powering mechanism applies to the whole sample. However, sub-groups of similarity exist that can be explained by mechanisms like the double-nickel distribution, magnetar central engine, interaction, and fallback accretion. We also map out the duration between the peaks (Δt21) versus the difference between peak absolute magnitudes (ΔM21) as a phase-space that could potentially delineate the most promising powering mechanisms for the double-peaked SESNe.
Item Type: | Article |
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Uncontrolled Keywords: | 5109 Space Sciences; 51 Physical Sciences; 0201 Astronomical and Space Sciences; Astronomy & Astrophysics; 5101 Astronomical sciences; 5107 Particle and high energy physics |
Subjects: | Q Science > QB Astronomy Q Science > QC Physics |
Divisions: | Astrophysics Research Institute |
Publisher: | IOP Publishing |
Date of acceptance: | 3 September 2025 |
Date of first compliant Open Access: | 8 October 2025 |
Date Deposited: | 08 Oct 2025 10:42 |
Last Modified: | 08 Oct 2025 10:45 |
DOI or ID number: | 10.1088/1538-3873/ae02c6 |
URI: | https://researchonline.ljmu.ac.uk/id/eprint/27296 |
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