NEUTRINOS IN IceCube FROM ACTIVE GALACTIC NUCLEI
Kalashev O., Semikoz D., Tkachev I.

Received: October 27, 2014

DOI: 10.7868/S0044451015030222

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Recently, the IceCube collaboration reported first evidence for the astrophysical neutrinos. Observation corresponds to the total astrophysical neutrino flux of the order of 3 • 10^-8 \mbox{GeV}\qqq• cm^-2\qqq•s^-1•sr^-1 in a PeV energy range [Icecube3years]. Active galactic nuclei (AGN) are natural candidate sources for such neutrinos. To model the neutrino creation in AGNs, we study photopion production processes on the radiation field of the Shakura-Sunyaev accretion discs in the black hole vicinity. We show that this model can explain the detected neutrino flux and at the same time avoids the existing constraints from the gamma-ray and cosmic-ray observations. Contribution for the JETP special issue in honor of V. A. Rubakov's 60th birthday