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Main Author: Ouyed, Rachid
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.08737
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author Ouyed, Rachid
author_facet Ouyed, Rachid
contents We propose that the delayed conversion of a neutron star (NS) into either a quark star (QS) or a hybrid star (HS), occurring approximately 105-109 days after the supernova (SN) explosion, injects ~ 2e49 erg of thermal energy into the expanded SN ejecta. This energy, delivered over ~ 40 days via a quark-nova (QN) shock or the spin-down power of the HS, can reproduce the photometric and spectral features observed in SN 2023aew. In this model, the first light curve peak corresponds to the 56Ni-powered SN resulting from a stripped-envelope progenitor with a zero-age main sequence mass of at least ~ (15-16)M_sun. The plateau between the two peaks may result from interaction between the SN ejecta and circumstellar material (CSM). Alternatively, it could be explained by the spin-down power of the NS prior to its conversion into a highly magnetized HS, which is responsible for powering the second bump. A scenario involving two phases of spin-down power - first from the NS and later from the HS - is compelling and supports the hypothesis that some magnetars are, in fact, HSs. These HSs acquire their ultra-strong magnetic fields through a quark matter phase capable of sustaining core fields on the order of ~ 1e18 G. In our model, the spin-down energy of the HS powers the QN ejecta - the outermost layers of the NS - before this energy is transferred to the expanded SN ejecta. This process produces luminous fast blue optical transients (LFBOTs). The model establishes a potential connection between superluminous SNe (SLSNe) and LFBOTs, with significant implications for high-energy astrophysics and the r-process nucleosynthesis of heavy elements. Potential consequences for Quantum Chromodynamics (QCD) are also discussed.
format Preprint
id arxiv_https___arxiv_org_abs_2505_08737
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Modeling the Light Curve and Spectra of SN 2023aew
Ouyed, Rachid
High Energy Astrophysical Phenomena
We propose that the delayed conversion of a neutron star (NS) into either a quark star (QS) or a hybrid star (HS), occurring approximately 105-109 days after the supernova (SN) explosion, injects ~ 2e49 erg of thermal energy into the expanded SN ejecta. This energy, delivered over ~ 40 days via a quark-nova (QN) shock or the spin-down power of the HS, can reproduce the photometric and spectral features observed in SN 2023aew. In this model, the first light curve peak corresponds to the 56Ni-powered SN resulting from a stripped-envelope progenitor with a zero-age main sequence mass of at least ~ (15-16)M_sun. The plateau between the two peaks may result from interaction between the SN ejecta and circumstellar material (CSM). Alternatively, it could be explained by the spin-down power of the NS prior to its conversion into a highly magnetized HS, which is responsible for powering the second bump. A scenario involving two phases of spin-down power - first from the NS and later from the HS - is compelling and supports the hypothesis that some magnetars are, in fact, HSs. These HSs acquire their ultra-strong magnetic fields through a quark matter phase capable of sustaining core fields on the order of ~ 1e18 G. In our model, the spin-down energy of the HS powers the QN ejecta - the outermost layers of the NS - before this energy is transferred to the expanded SN ejecta. This process produces luminous fast blue optical transients (LFBOTs). The model establishes a potential connection between superluminous SNe (SLSNe) and LFBOTs, with significant implications for high-energy astrophysics and the r-process nucleosynthesis of heavy elements. Potential consequences for Quantum Chromodynamics (QCD) are also discussed.
title Modeling the Light Curve and Spectra of SN 2023aew
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2505.08737