KM3NeT’s sensitivity to the next core-collapse supernova

KM3NeT Collaboration

doi:10.22323/1.501.1037

KM3NeT’s sensitivity to the next core-collapse supernova

KM3NeT Collaboration

Physics

Badji Mokhtar University
University of Florence
National Institute for Nuclear Physics
Université de Strasbourg
Université de Haute-Alsace
Khalifa University of Science and Technology
Aix-Marseille Université
University of Valencia
University of Rome La Sapienza
Polytechnic University of Catalonia
Nantes Université
Polytechnic University of Valencia
Université de Paris
University of Genoa
Université de Caen
North West University
University of Bologna
University of Campania Luigi Vanvitelli
University of Hull
Czech Technical University in Prague
Comenius University
National Institute for Subatomic Physics
Mohammed V University in Rabat
University of Salerno
University of Naples Federico II
National Institute for Laser, Plasma and Radiation Physics
University of Amsterdam
Netherlands Organisation for Applied Scientific Research
Cadi Ayyad University
University of the Witwatersrand
University of Catania
Princeton University
Université catholique de Louvain
University of Granada
Friedrich-Alexander University Erlangen-Nürnberg
Demokritos National Centre for Scientific Research
Mohamed I University
Western Sydney University
Royal Netherlands Institute for Sea Research - NIOZ
Leiden University
AGH University of Science and Technology
Nicolaus Copernicus Astronomical Center of the Polish Academy of Sciences
Ivane Javakhishvili Tbilisi State University
The University of Georgia, Tbilisi
Institut universitaire de France
Max Planck Institute for Radio Astronomy
Sharjah Academy for Astronomy, Space Sciences & Technology
Charles University
Harvard University
Mohammed VI Polytechnic University
Université Montpellier 2

Research output: Contribution to journal › Conference article › peer-review

Abstract

Core-collapse supernovae (CCSNe), the collapse of supermassive stars, have a significant impact on the dynamics of galaxies but their underlying mechanism is still only partially understood. These phenomena, however, produce short and extremely intense neutrino bursts, which could be used to probe the dynamics of the CCSN cores. However, such neutrinos would be detected only for CCSNe occurring in the Milky Way or its satellite galaxies, which are expected to occur around twice per century. It is therefore necessary to maximise the detection potential of all sensitive neutrino experiments, including very-large-scale water Cherenkov detectors, primarily aimed at GeV-PeV neutrino detection. In this contribution, we present a new CCSN search using the KM3NeT neutrino detector. In this search, we consider KM3NeT’s Digital Optical Modules (DOMs) as standalone detectors for MeV-scale CCSN neutrinos. We define observables that characterize the pattern of activated photomultipliers on a single DOM, and use them to distinguish CCSN neutrinos from radioactivity and atmospheric muon backgrounds. With this search strategy, KM3NeT could currently probe the majority of CCSN candidates in the Milky Way and, once finished, would be sensitive to all potential galactic supernovae.

Original language	English
Article number	1037
Journal	Proceedings of Science
Volume	501
DOIs	https://doi.org/10.22323/1.501.1037
Publication status	Published - 30 Dec 2025
Event	39th International Cosmic Ray Conference, ICRC 2025 - Geneva, Switzerland Duration: 15 Jul 2025 → 24 Jul 2025

ASJC Scopus subject areas

Multidisciplinary

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10.22323/1.501.1037

Cite this

@article{821ccedb94b24122867eb6c34c7eb6e3,

title = "KM3NeT{\textquoteright}s sensitivity to the next core-collapse supernova",

abstract = "Core-collapse supernovae (CCSNe), the collapse of supermassive stars, have a significant impact on the dynamics of galaxies but their underlying mechanism is still only partially understood. These phenomena, however, produce short and extremely intense neutrino bursts, which could be used to probe the dynamics of the CCSN cores. However, such neutrinos would be detected only for CCSNe occurring in the Milky Way or its satellite galaxies, which are expected to occur around twice per century. It is therefore necessary to maximise the detection potential of all sensitive neutrino experiments, including very-large-scale water Cherenkov detectors, primarily aimed at GeV-PeV neutrino detection. In this contribution, we present a new CCSN search using the KM3NeT neutrino detector. In this search, we consider KM3NeT{\textquoteright}s Digital Optical Modules (DOMs) as standalone detectors for MeV-scale CCSN neutrinos. We define observables that characterize the pattern of activated photomultipliers on a single DOM, and use them to distinguish CCSN neutrinos from radioactivity and atmospheric muon backgrounds. With this search strategy, KM3NeT could currently probe the majority of CCSN candidates in the Milky Way and, once finished, would be sensitive to all potential galactic supernovae.",

author = "\{KM3NeT Collaboration\} and Bouasla, \{Amani Besma\} and Reda Attallah and O. Adriani and A. Albert and Alhebsi, \{A. R.\} and S. Alshalloudi and M. Alshamsi and \{Alves Garre\}, S. and F. Ameli and M. Andre and L. Aphecetche and M. Ardid and S. Ardid and J. Aublin and F. Badaracco and L. Bailly-Salins and B. Baret and A. Bariego-Quintana and M. Barnard and Y. Becherini and M. Bendahman and \{Benfenati Gualandi\}, F. and M. Benhassi and Benoit, \{D. M.\} and Z. Be{\v n}u{\v s}ov{\'a} and E. Berbee and E. Berti and V. Bertin and P. Betti and S. Biagi and M. Boettcher and D. Bonanno and M. Bond{\`i} and S. Bottai and Bouasla, \{A. B.\} and J. Boumaaza and M. Bouta and M. Bouwhuis and C. Bozza and Bozza, \{R. M.\} and H. Br{\^a}nza{\c s} and F. Bretaudeau and M. Breuhaus and R. Bruijn and J. Brunner and R. Bruno and E. Buis and R. Buompane and I. Burriel and S. Razzaque",

note = "Publisher Copyright: {\textcopyright} Copyright owned by the author(s); 39th International Cosmic Ray Conference, ICRC 2025 ; Conference date: 15-07-2025 Through 24-07-2025",

year = "2025",

month = dec,

day = "30",

doi = "10.22323/1.501.1037",

language = "English",

volume = "501",

journal = "Proceedings of Science",

issn = "1824-8039",

publisher = "Sissa Medialab Srl",

}

TY - JOUR

T1 - KM3NeT’s sensitivity to the next core-collapse supernova

AU - KM3NeT Collaboration

AU - Bouasla, Amani Besma

AU - Attallah, Reda

AU - Adriani, O.

AU - Albert, A.

AU - Alhebsi, A. R.

AU - Alshalloudi, S.

AU - Alshamsi, M.

AU - Alves Garre, S.

AU - Ameli, F.

AU - Andre, M.

AU - Aphecetche, L.

AU - Ardid, M.

AU - Ardid, S.

AU - Aublin, J.

AU - Badaracco, F.

AU - Bailly-Salins, L.

AU - Baret, B.

AU - Bariego-Quintana, A.

AU - Barnard, M.

AU - Becherini, Y.

AU - Bendahman, M.

AU - Benfenati Gualandi, F.

AU - Benhassi, M.

AU - Benoit, D. M.

AU - Beňušová, Z.

AU - Berbee, E.

AU - Berti, E.

AU - Bertin, V.

AU - Betti, P.

AU - Biagi, S.

AU - Boettcher, M.

AU - Bonanno, D.

AU - Bondì, M.

AU - Bottai, S.

AU - Bouasla, A. B.

AU - Boumaaza, J.

AU - Bouta, M.

AU - Bouwhuis, M.

AU - Bozza, C.

AU - Bozza, R. M.

AU - Brânzaş, H.

AU - Bretaudeau, F.

AU - Breuhaus, M.

AU - Bruijn, R.

AU - Brunner, J.

AU - Bruno, R.

AU - Buis, E.

AU - Buompane, R.

AU - Burriel, I.

AU - Razzaque, S.

PY - 2025/12/30

Y1 - 2025/12/30

N2 - Core-collapse supernovae (CCSNe), the collapse of supermassive stars, have a significant impact on the dynamics of galaxies but their underlying mechanism is still only partially understood. These phenomena, however, produce short and extremely intense neutrino bursts, which could be used to probe the dynamics of the CCSN cores. However, such neutrinos would be detected only for CCSNe occurring in the Milky Way or its satellite galaxies, which are expected to occur around twice per century. It is therefore necessary to maximise the detection potential of all sensitive neutrino experiments, including very-large-scale water Cherenkov detectors, primarily aimed at GeV-PeV neutrino detection. In this contribution, we present a new CCSN search using the KM3NeT neutrino detector. In this search, we consider KM3NeT’s Digital Optical Modules (DOMs) as standalone detectors for MeV-scale CCSN neutrinos. We define observables that characterize the pattern of activated photomultipliers on a single DOM, and use them to distinguish CCSN neutrinos from radioactivity and atmospheric muon backgrounds. With this search strategy, KM3NeT could currently probe the majority of CCSN candidates in the Milky Way and, once finished, would be sensitive to all potential galactic supernovae.

AB - Core-collapse supernovae (CCSNe), the collapse of supermassive stars, have a significant impact on the dynamics of galaxies but their underlying mechanism is still only partially understood. These phenomena, however, produce short and extremely intense neutrino bursts, which could be used to probe the dynamics of the CCSN cores. However, such neutrinos would be detected only for CCSNe occurring in the Milky Way or its satellite galaxies, which are expected to occur around twice per century. It is therefore necessary to maximise the detection potential of all sensitive neutrino experiments, including very-large-scale water Cherenkov detectors, primarily aimed at GeV-PeV neutrino detection. In this contribution, we present a new CCSN search using the KM3NeT neutrino detector. In this search, we consider KM3NeT’s Digital Optical Modules (DOMs) as standalone detectors for MeV-scale CCSN neutrinos. We define observables that characterize the pattern of activated photomultipliers on a single DOM, and use them to distinguish CCSN neutrinos from radioactivity and atmospheric muon backgrounds. With this search strategy, KM3NeT could currently probe the majority of CCSN candidates in the Milky Way and, once finished, would be sensitive to all potential galactic supernovae.

UR - https://www.scopus.com/pages/publications/105029068939

U2 - 10.22323/1.501.1037

DO - 10.22323/1.501.1037

M3 - Conference article

AN - SCOPUS:105029068939

SN - 1824-8039

VL - 501

JO - Proceedings of Science

JF - Proceedings of Science

M1 - 1037

T2 - 39th International Cosmic Ray Conference, ICRC 2025

Y2 - 15 July 2025 through 24 July 2025

ER -

KM3NeT’s sensitivity to the next core-collapse supernova

Abstract

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