Axion Dark Radiation: Hubble Tension and Hyper-kamiokande Neutrino Experiment

Abstract

In this work, we investigate the dark sector of a supersymmetric axion model, consisting of the late-decaying gravitino/axino dark matter and axion dark radiation. In the early universe, the decay of the scalar superpartner of the axion (saxion) will produce a large amount of entropy. The additional entropy can not only dilute the relic density of the gravitino/axino dark matter to avoid overclosing the universe but also relax the constraint on the reheating temperature TR after inflation. Meanwhile, the axion dark radiation from the saxion decay will increase the effective number of neutrino species N eff, which can help to reduce the cosmological Hubble tension. In the late universe, the decay of long-lived gravitino/axino dark matter produces the axions with MeV-scale kinetic energy. We study the potential of searching for such energetic axions through the inverse Primakoff process a+A γ+ A in the neutrino experiments, such as Hyper-Kamiokande.