Ústav technické a experimentální fyziky Institute of Experimental and Applied Physics

Ultrahigh-Energy Event KM3-230213A within the Global Neutrino Landscape

NázevTitle
Ultrahigh-Energy Event KM3-230213A within the Global Neutrino LandscapeUltrahigh-Energy Event KM3-230213A within the Global Neutrino Landscape
Druh výsledkuResult type
Článek v časopiseJournal article
AutořiAuthors
O. Adriani, S. Aiello, A. Albert, A.R. Alhebsi, Z. Bardacova, E. Eckerová, Ľ. Krupa, F. Mamedov, M. Petropavlova, Y. Shitov, I. Štekl
DOIDOI
10.1103/yypk-zmb8
Časopis / citaceJournal / citation
Physical Review X. 2025, 15(3), 1-13. ISSN 2160-3308.
RokYear
2025
JazykLanguage
eng
WoSWoS
001574210900001
ScopusScopus
2-s2.0-105023316188
RIVRIV
RIV/68407700:21670/25:00387842!RIV26-GA0-21670___
ProjektProject
Hodnocení radioaktivity materiálu a vylepšené kalibrační techniky pro zvýšení výkonnosti neutrinových teleskopů KM3NETMaterial radioactivity evaluations and improved calibration techniques to advance performances of the KM3NET neutrino telescopes

AbstraktAbstract

On February 13th, 2023, the KM3NeT/ARCA telescope detected a neutrino candidate with an estimated energy in the hundreds of PeV. In this article, the observation of this ultrahigh-energy neutrino is discussed in light of null observations above tens of PeV from the IceCube and Pierre Auger observatories. Performing a joint fit of all experiments under the assumption of an isotropic E-2 flux, the best-fit single-flavor flux normalization is E2φν+ν¯1f=7.5×10-10 GeV cm-2 s-1 sr-1 in the 90% energy range of the KM3NeT event. Furthermore, the ultrahigh-energy data are then fit together with the IceCube measurements at lower energies, either with a single power law or with a broken power law, allowing for the presence of a new component in the spectrum. A slight preference for a break in the PeV regime is found for one of the three investigated IceCube samples and no such preference for the other two. In all cases, the observed tension between KM3NeT and other datasets is mild to moderate (1.6σ-2.9σ), and increased statistics are required to resolve this apparent tension and better characterize the neutrino landscape at ultrahigh energies.

On February 13th, 2023, the KM3NeT/ARCA telescope detected a neutrino candidate with an estimated energy in the hundreds of PeV. In this article, the observation of this ultrahigh-energy neutrino is discussed in light of null observations above tens of PeV from the IceCube and Pierre Auger observatories. Performing a joint fit of all experiments under the assumption of an isotropic E-2 flux, the best-fit single-flavor flux normalization is E2φν+ν¯1f=7.5×10-10 GeV cm-2 s-1 sr-1 in the 90% energy range of the KM3NeT event. Furthermore, the ultrahigh-energy data are then fit together with the IceCube measurements at lower energies, either with a single power law or with a broken power law, allowing for the presence of a new component in the spectrum. A slight preference for a break in the PeV regime is found for one of the three investigated IceCube samples and no such preference for the other two. In all cases, the observed tension between KM3NeT and other datasets is mild to moderate (1.6σ-2.9σ), and increased statistics are required to resolve this apparent tension and better characterize the neutrino landscape at ultrahigh energies.