The detection of cosmic neutrinos with energies above a teraelectronvolt (TeV) offers a unique exploration into astrophysical phenomena(1-3). Electrically neutral and interacting only by means of the weak interaction, neutrinos are not deflected by magnetic fields and are rarely absorbed by interstellar matter: their direction indicates that their cosmic origin might be from the farthest reaches of the Universe. High-energy neutrinos can be produced when ultra-relativistic cosmic-ray protons or nuclei interact with other matter or photons, and their observation could be a signature of these processes. Here we report an exceptionally high-energy event observed by KM3NeT, the deep-sea neutrino telescope in the Mediterranean Sea(4), which we associate with a cosmic neutrino detection. We detect a muon with an estimated energy of 120(-60)(+110) petaelectronvolts (PeV). In light of its enormous energy and near-horizontal direction, the muon most probably originated from the interaction of a neutrino of even higher energy in the vicinity of the detector. The cosmic neutrino energy spectrum measured up to now(5-7) falls steeply with energy. However, the energy of this event is much larger than that of any neutrino detected so far. This suggests that the neutrino may have originated in a different cosmic accelerator than the lower-energy neutrinos, or this may be the first detection of a cosmogenic neutrino(8), resulting from the interactions of ultra-high-energy cosmic rays with background photons in the Universe.
Observation of an ultra-high-energy cosmic neutrino with KM3NeT / Aiello, S; Albert, A; Alhebsi, Ar; Alshamsi, M; Garre, Sa; Ambrosone, A; Ameli, F; Andre, M; Anghinolfi, M; Aphecetche, L; Ardid, M; Ardid, S; Argüelles, C; Atmani, H; Aublin, J; Badaracco, F; Bailly-Salins, L; Bardacová, Z; Baret, B; Bariego-Quintana, A; Becherini, Y; Bendahman, M; Gualandi, Fb; Benhassi, M; Bennani, M; Benoit, Dm; Berbee, E; Bertin, V; Biagi, S; Boettcher, M; Bonanno, D; Bouasla, Ab; Boumaaza, J; Bouta, M; Bouwhuis, M; Bozza, C; Bozza, Rm; Brânzas, H; Bretaudeau, F; Breuhaus, M; Bruijn, R; Brunner, J; Bruno, R; Buis, E; Buompane, R; Buson, S; Busto, J; Caiffi, B; Calvo, D; Capone, A; Carenini, F; Carretero, V; Cartraud, T; Castaldi, P; Cecchini, V; Celli, S; Cerisy, L; Chabab, M; Chen, A; Cherubini, S; Chiarusi, T; Circella, M; Cocimano, R; Coelho, Jab; Coleiro, A; Colonges, S; Condorelli, A; Coniglione, R; Coyle, P; Creusot, A; Cuttone, G; D'Amico, A; Dallier, R; De Benedittis, A; De Martino, B; De Wasseige, G; Decoene, V; Del Rosso, I; Di Mauro, Ls; Di Palma, I; Diaz, Af; Diego-Tortosa, D; Distefano, C; Domi, A; Donzaud, C; Dornic, D; Drakopoulou, E; Drouhin, D; Ducoin, Jg; Dvornicky, R; Eberl, T; Eckerová, E; Eddymaoui, A; Van Eeden, T; Eff, M; Van Eijk, D; El Bojaddaini, I; El Hedri, S; Ellajosyula, V; Enzenhöfer, A; Ferrara, G; Filipovicv, Md; Filippini, F; Franciotti, D; Fusco, La; Gagliardini, S; Gal, T; Méndez, Jg; Soto, Ag; Oliver, Cg; Geisselbrecht, N; Genton, E; Ghaddari, H; Gialanella, L; Gibson, Bk; Giorgio, E; Goos, I; Goswami, P; Gozzini, Sr; Gracia, R; Graf, K; Guidi, C; Guillon, B; Gutiérrez, M; Haack, C; Van Haren, H; Heijboer, A; Hennig, L; Henry, S; Hernández-Rey, Jj; Ibnsalih, Wi; Ilioni, A; Illuminati, G; Joly, D; De Jong, M; De Jong, P; Jung, Bj; Kalaczynski, P; Kalekin, O; Kamp, N; Katz, Uf; Kistauri, G; Kopper, C; Kouchner, A; Kovalev, Yy; Kueviakoe, V; Kulikovskiy, V; Kvatadze, R; Labalme, M; Lahmann, R; Lamoureux, M; Lancelin, S; Larosa, G; Lastoria, C; Lazar, J; Lazo, A; Le Stum, S; Lehaut, G; Lemaitre, V; Leonora, E; Lessing, N; Levi, G; Lincetto, M; Clark, Ml; Longhitano, F; Lumb, N; Magnani, F; Majumdar, J; Malerba, L; Mamedov, F; Manfreda, A; Marconi, M; Margiotta, A; Marinelli, A; Markou, C; Martin, L; Marzaioli, F; Mastrodicasa, M; Mastroianni, S; Mauro, J; Miele, G; Migliozzi, P; Migneco, E; Mitsou, Ml; Mollo, Cm; Mongelli, M; Morales-Gallegos, L; Moussa, A; Mateo, Im; Muller, R; Musone, Mr; Musumeci, M; Navas, S; Nayerhoda, A; Nicolau, Ca; Nkosi, B; Fearraigh, Bo; Oliviero, V; Orlando, A; Oukacha, E; Paesani, D; González, Jp; Papalashvili, G; Paries, C; Parisi, V; Gomez, Ejp; Pastore, C; Paun, Am; Pavalas, Ge; Martínez, Sp; Perrin-Terrin, M; Pestel, V; Pestes, R; Pfeiffer, L; Piattelli, P; Plavin, A; Poirè, C; Popa, V; Pradier, T; Prado, J; Pulvirenti, S; Quiroz-Rangel, Ca; Randazzo, N; Razzaque, S; Rea, Ic; Real, D; Riccobene, G; Robinson, J; Romanov, A; Ros, E; Saina, A; Greus, Fs; Samtleben, Dfe; Losa, As; Sanfilippo, S; Sanguineti, M; Santonocito, D; Sapienza, P; Schmelling, J; Schnabel, J; Schumann, J; Schutte, Hm; Seneca, J; Sennan, N; Sevle, P; Sgura, I; Shanidze, R; Sharma, A; Shitov, Y; Simkovic, F; Simonelli, A; Sinopoulou, A; Spisso, B; Spurio, M; Stavropoulos, D; Stekl, I; Taiuti, M; Tayalati, Y; Thiersen, H; Thoudam, S; Melo, Ite; Trocmé, B; Tsourapis, V; Tudorache, A; Tzamariudaki, E; Ukleja, A; Vacheret, A; Valsecchi, V; Van Elewyck, V; Vannoye, G; Vasileiadis, G; De Sola, Fv; Verilhac, C; Veutro, A; Viola, S; Vivolo, D; Van Vliet, A; Wen, Ay; De Wolf, E; Lhenry-Yvon, I; Zavatarelli, S; Zegarelli, A; Zito, D; Zornoza, Jd; Zúñiga, J; Zywucka, N. - In: NATURE. - ISSN 0028-0836. - 638:8050(2025), pp. 376-395. [10.1038/s41586-024-08543-1]
Observation of an ultra-high-energy cosmic neutrino with KM3NeT
Ameli, F;Capone, A;Celli, S;Di Palma, I;Gagliardini, S;Mastrodicasa, M;Nicolau, CA;Sharma, A;Tudorache, A;Veutro, A;Zegarelli, A;
2025
Abstract
The detection of cosmic neutrinos with energies above a teraelectronvolt (TeV) offers a unique exploration into astrophysical phenomena(1-3). Electrically neutral and interacting only by means of the weak interaction, neutrinos are not deflected by magnetic fields and are rarely absorbed by interstellar matter: their direction indicates that their cosmic origin might be from the farthest reaches of the Universe. High-energy neutrinos can be produced when ultra-relativistic cosmic-ray protons or nuclei interact with other matter or photons, and their observation could be a signature of these processes. Here we report an exceptionally high-energy event observed by KM3NeT, the deep-sea neutrino telescope in the Mediterranean Sea(4), which we associate with a cosmic neutrino detection. We detect a muon with an estimated energy of 120(-60)(+110) petaelectronvolts (PeV). In light of its enormous energy and near-horizontal direction, the muon most probably originated from the interaction of a neutrino of even higher energy in the vicinity of the detector. The cosmic neutrino energy spectrum measured up to now(5-7) falls steeply with energy. However, the energy of this event is much larger than that of any neutrino detected so far. This suggests that the neutrino may have originated in a different cosmic accelerator than the lower-energy neutrinos, or this may be the first detection of a cosmogenic neutrino(8), resulting from the interactions of ultra-high-energy cosmic rays with background photons in the Universe.| File | Dimensione | Formato | |
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