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Autori principali: Suwa, Yudai, Akaho, Ryuichiro, Ashida, Yosuke, Harada, Akira, Harada, Masayuki, Koshio, Yusuke, Mori, Masamitsu, Nakanishi, Fumi, Nakazato, Ken'ichiro, Sumiyoshi, Kohsuke, Wendell, Roger A., Zaizen, Masamichi
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2504.19510
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author Suwa, Yudai
Akaho, Ryuichiro
Ashida, Yosuke
Harada, Akira
Harada, Masayuki
Koshio, Yusuke
Mori, Masamitsu
Nakanishi, Fumi
Nakazato, Ken'ichiro
Sumiyoshi, Kohsuke
Wendell, Roger A.
Zaizen, Masamichi
author_facet Suwa, Yudai
Akaho, Ryuichiro
Ashida, Yosuke
Harada, Akira
Harada, Masayuki
Koshio, Yusuke
Mori, Masamitsu
Nakanishi, Fumi
Nakazato, Ken'ichiro
Sumiyoshi, Kohsuke
Wendell, Roger A.
Zaizen, Masamichi
contents We investigate neutrino signals associated with black hole formation resulting from the gravitational collapse of massive stars, motivated by the candidate failed supernova M31-2014-DS1 in the Andromeda Galaxy (M31). By compiling numerical simulation results for stellar collapse, we predict the expected neutrino emission and compare these predictions with observational limits from Super-Kamiokande (SK). The simulations reveal a characteristic precursor signal consisting of a short, intense burst whose average neutrino energy rises rapidly and then ceases abruptly once the black hole forms. We examine several nuclear equations of state, specifically the Lattimer \& Swesty, Shen, Togashi, and SFHo models, to evaluate how the emission depends on neutron-star properties and nuclear-physics uncertainties. Comparison of the predicted event counts with SK's non-detection of neutrinos coincident with M31-2014-DS1 already rules out part of the model space and highlights the sensitivity of current neutrino detectors to both progenitor mass and the EOS. These findings demonstrate the capability of neutrino astronomy to probe core collapse and black hole formation in failed supernova scenarios.
format Preprint
id arxiv_https___arxiv_org_abs_2504_19510
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Neutrino Constraints on Black Hole Formation in M31
Suwa, Yudai
Akaho, Ryuichiro
Ashida, Yosuke
Harada, Akira
Harada, Masayuki
Koshio, Yusuke
Mori, Masamitsu
Nakanishi, Fumi
Nakazato, Ken'ichiro
Sumiyoshi, Kohsuke
Wendell, Roger A.
Zaizen, Masamichi
High Energy Astrophysical Phenomena
Solar and Stellar Astrophysics
We investigate neutrino signals associated with black hole formation resulting from the gravitational collapse of massive stars, motivated by the candidate failed supernova M31-2014-DS1 in the Andromeda Galaxy (M31). By compiling numerical simulation results for stellar collapse, we predict the expected neutrino emission and compare these predictions with observational limits from Super-Kamiokande (SK). The simulations reveal a characteristic precursor signal consisting of a short, intense burst whose average neutrino energy rises rapidly and then ceases abruptly once the black hole forms. We examine several nuclear equations of state, specifically the Lattimer \& Swesty, Shen, Togashi, and SFHo models, to evaluate how the emission depends on neutron-star properties and nuclear-physics uncertainties. Comparison of the predicted event counts with SK's non-detection of neutrinos coincident with M31-2014-DS1 already rules out part of the model space and highlights the sensitivity of current neutrino detectors to both progenitor mass and the EOS. These findings demonstrate the capability of neutrino astronomy to probe core collapse and black hole formation in failed supernova scenarios.
title Neutrino Constraints on Black Hole Formation in M31
topic High Energy Astrophysical Phenomena
Solar and Stellar Astrophysics
url https://arxiv.org/abs/2504.19510