The origin of astrophysical neutrinos remains a mystery. Absence of detection of EeV neutrinos questions, among other properties, the mass composition and the pion production efficiency of highest energy sources in the Universe. Growing statistics from the IceCube Observatory at TeV-PeV energies starts to reveal important features of the sources, including their energy spectrum, spacial distribution, emission rates, and Galactic/extragalactic origin. At sub-TeV, tensions exist between the fluxes of neutrinos and isotropic diffusive gamma-ray background, challenging some of the existing astrophysical and dark matter scenarios. In light of these observational constraints and implications, I will review a wide range of potential neutrino sources, focusing on their neutrino production mechanism and multi-messenger signatures.
American Astronomical Society Meeting Abstracts #227
- Pub Date:
- January 2016