Selected results from IceCube

Abstract: Neutrino astronomy saw its birth with the discovery by IceCube of a difFuse flux at energies above 60 TeV with intensity comparable to a predicted upper limit to the flux from extra-galactic sources of ultra-high energy cosmic rays (UHECRs). While such an upper limit corresponds to the case of calorimetric sources, in which cosmic rays lose all their energy into photo-pion production, the first statistically significant coincident observation between neutrinos and gamma-rays was observed from a blazar of intri… Show more

“…A neutrino hot spot in the diffuse neutrino flux was found in the IceCube 10 years data analysis, correlating with NGC 1068, a nearby active galaxy [3]. The origin of the high-energy astrophysical neutrinos, the origin of high energy cosmic rays, and the acceleration mechanisms of the cosmic rays, remain unknown [4]. Next-generation neutrino telescopes with larger volume and better pointing capability are needed to uncover more astrophysical neutrino sources, reveal the century-old puzzle on high-energy cosmic rays origins and probe the underlining physics.…”

The PMT system of the TRIDENT pathfinder experiment

“…A neutrino hot spot in the diffuse neutrino flux was found in the IceCube 10 years data analysis, correlating with NGC 1068, a nearby active galaxy [3]. The origin of the high-energy astrophysical neutrinos, the origin of high energy cosmic rays, and the acceleration mechanisms of the cosmic rays, remain unknown [4]. Next-generation neutrino telescopes with larger volume and better pointing capability are needed to uncover more astrophysical neutrino sources, reveal the century-old puzzle on high-energy cosmic rays origins and probe the underlining physics.…”

The PMT system of the TRIDENT pathfinder experiment