Sagittarius A as a plausible source candidate for PeV neutrinos
Abstract
We propose that the recently observed diffuse neutrinos by IceCube with energies above 1 PeV might have originated from Sagittarius A located in the galactic disk. This implies that the astrophysical settings of Sagittarius A need to accelerate hadronic cosmic rays to energies of 100 PeV or more. Then, the hadronic emission scenario argues that this galactic neutrino source is also a PeV gamma-ray source. Recent observation of galactic diffuse PeV gamma-rays with energies 1 PeV by Large High Altitude Air Shower Observatory has also advocated this conjecture. In the present paper, we demonstrate that if protons are accelerated to energies of 100 PeV or more as reported by Osmanov et al. (Astrophys. J. 835 164:2017) in Sagittarius A environment, then they might generate PeV neutrinos and gamma rays through cosmic rays-gas/interstellar matter ( e.g. pp) interactions. We estimate theoretically the diffuse neutrino flux due to back-to-back charged pion decays and the accompanying gamma-ray flux from neutral pion decays. These results suggest that a fraction ( 1\%) of the PeV diffuse neutrino flux observed by IceCube can be explained by the neutrino emission from Sagittarius A. Upcoming IceCube Gen2 and Cherenkov telescope array could be able to test our scenario for PeV neutrino and gamma-ray emissions from the only known galactic Pevatron Sagittarius A with CR energies more than 100 PeV.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.