TY - JOUR
T1 - Fast Radio Burst sources and Neutrinos
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.
N1 - Publisher Copyright:
© Copyright owned by the author(s)
PY - 2025/12/30
Y1 - 2025/12/30
N2 - The KM3NeT experiment is a next-generation neutrino telescope and particle physics detector, consisting of the ORCA and ARCA detectors, organised as 3D arrays of light sensors, and immersed in the depths of the Mediterranean Sea. Identical in their design but differing in scale, ORCA aims at detecting neutrinos in the GeV-TeV range, while ARCA will focus on higher energies in the TeV-PeV range. Both detectors can contribute to the study of astrophysical multi-messenger phenomena. Among the latter, Fast Radio Bursts (FRB) sources are good candidates for multi-messenger emissions due to the huge energy involved in their bursts. However, neutrino emissions from FRB sources are poorly constrained by models, which do not exclude temporal coincidences and motivate a search across both detector energy ranges. In this contribution, I will present the results of a multi-messenger analysis intended to search for spatial and temporal coincidences of astrophysical neutrino signals from the ARCA and ORCA detectors with FRBs. Sources were selected from several published FRB catalogues, taking into account the date and location of the observed bursts. The results of the correlation search conducted in KM3NeT for more than 250 FRBs is provided, setting a limit on the neutrino fluxes for each source.
AB - The KM3NeT experiment is a next-generation neutrino telescope and particle physics detector, consisting of the ORCA and ARCA detectors, organised as 3D arrays of light sensors, and immersed in the depths of the Mediterranean Sea. Identical in their design but differing in scale, ORCA aims at detecting neutrinos in the GeV-TeV range, while ARCA will focus on higher energies in the TeV-PeV range. Both detectors can contribute to the study of astrophysical multi-messenger phenomena. Among the latter, Fast Radio Bursts (FRB) sources are good candidates for multi-messenger emissions due to the huge energy involved in their bursts. However, neutrino emissions from FRB sources are poorly constrained by models, which do not exclude temporal coincidences and motivate a search across both detector energy ranges. In this contribution, I will present the results of a multi-messenger analysis intended to search for spatial and temporal coincidences of astrophysical neutrino signals from the ARCA and ORCA detectors with FRBs. Sources were selected from several published FRB catalogues, taking into account the date and location of the observed bursts. The results of the correlation search conducted in KM3NeT for more than 250 FRBs is provided, setting a limit on the neutrino fluxes for each source.
UR - https://www.scopus.com/pages/publications/105029063439
U2 - 10.22323/1.501.0996
DO - 10.22323/1.501.0996
M3 - Conference article
AN - SCOPUS:105029063439
SN - 1824-8039
VL - 501
JO - Proceedings of Science
JF - Proceedings of Science
M1 - 996
T2 - 39th International Cosmic Ray Conference, ICRC 2025
Y2 - 15 July 2025 through 24 July 2025
ER -