Evaluation of the potential of a gamma-ray observatory to detect astrophysical neutrinos through inclined showers

Abstract

We assess the capabilities of a ground-based gamma-ray observatory to detect astrophysical neutrinos with energies in the 100\, TeV to 100\, PeV range. The identification of these events would be done through the measurement of very inclined extensive air showers induced by downward-going and upward-going neutrinos. The discrimination of neutrino-induced showers in the overwhelming cosmic-ray background is achieved by analysing the balance of the total electromagnetic and muonic signals of the shower at the ground. We demonstrate that a km2-scale wide field-of-view ground-based gamma-ray observatory could detect a couple of Very-High to Ultra-High energy (VHE-UHE) neutrino events per year with a reasonable pointing accuracy, making it an interesting facility for multi-messenger studies with both photons and neutrinos.