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Main Authors: Buccheri, M., Cosentino, S. P., Pumo, M. L.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.19919
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author Buccheri, M.
Cosentino, S. P.
Pumo, M. L.
author_facet Buccheri, M.
Cosentino, S. P.
Pumo, M. L.
contents Hydrogen-rich supernovae can efficiently accelerate particles when the expanding ejecta interact with the surrounding circumstellar medium (CSM), producing high-energy (TeV--PeV) neutrinos. In this work we investigate the nearby SN~2024ggi, whose proximity and clear signatures of ejecta--CSM interaction make it a promising candidate for studying high-energy ($ν$) emission. We apply a new semi-analytical model that consistently links the electromagnetic and neutrino emission components, allowing us to constrain the main explosion parameters, including the kinetic energy, ejecta mass, progenitor radius, and nickel yield. The predicted high-energy ($ν$) fluence at Earth peaks at TeV energies and remains below the sensitivity of current detectors. However, the modeling establishes a robust framework for interpreting future signals from nearby interacting supernovae and fine-tuning observational strategies for next-generation multi-messenger facilities such as IceCube-Gen2 and KM3NeT/ARCA.
format Preprint
id arxiv_https___arxiv_org_abs_2603_19919
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle High-energy neutrino flux from SN2024ggi: constraints from semi-analytic modeling of its post-explosive emission
Buccheri, M.
Cosentino, S. P.
Pumo, M. L.
High Energy Astrophysical Phenomena
Hydrogen-rich supernovae can efficiently accelerate particles when the expanding ejecta interact with the surrounding circumstellar medium (CSM), producing high-energy (TeV--PeV) neutrinos. In this work we investigate the nearby SN~2024ggi, whose proximity and clear signatures of ejecta--CSM interaction make it a promising candidate for studying high-energy ($ν$) emission. We apply a new semi-analytical model that consistently links the electromagnetic and neutrino emission components, allowing us to constrain the main explosion parameters, including the kinetic energy, ejecta mass, progenitor radius, and nickel yield. The predicted high-energy ($ν$) fluence at Earth peaks at TeV energies and remains below the sensitivity of current detectors. However, the modeling establishes a robust framework for interpreting future signals from nearby interacting supernovae and fine-tuning observational strategies for next-generation multi-messenger facilities such as IceCube-Gen2 and KM3NeT/ARCA.
title High-energy neutrino flux from SN2024ggi: constraints from semi-analytic modeling of its post-explosive emission
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2603.19919