Axion and dark photon limits from Crab Nebula high energy gamma-rays

Abstract

The observation of cosmic sub-PeV gamma-rays from the Crab Nebula opens up the possibility of testing cosmic ray photon transparency at the multi-hundred TeV scale. Assuming no deviation from a source gamma-ray emission due to accelerated electron inverse-Compton scattering, higher event energies can extend constraints on the effects of new physics; We consider oscillation between gamma-rays and axions/dark photons, plus attenuation effects from gamma-ray absorption in the case of dark photon dark matter. Combining the recent ASγ and HAWC sub-PeV data with earlier MAGIC and HEGRA data, axion-like particles are most constrained in the 10-7-10-6 eV mass range, where the coupling gaγ is constrained to be below 1.8× 10-10 GeV-1. In comparison, gamma ray flux attenuation due to oscillation with a dark photon leads to a very weak constraint on the mixing parameter; ε 0.2 for dark photon mass between 10-7 and 10-6 eV. Direct scattering from dark photon dark matter limits ε 0.01 for masses between 6 and 400 eV.