Thermal production of astrophobic axions

Abstract

Hot axions are produced in the early Universe via their interactions with Standard Model particles, contributing to dark radiation commonly parameterized as Neff. In standard QCD axion benchmark models, this contribution to Neff is negligible after taking into account astrophysical limits such as the SN1987A bound. We therefore compute the axion contribution to Neff in so-called astrophobic axion models characterized by strongly suppressed axion couplings to nucleons and electrons, in which astrophysical constraints are relaxed and Neff may be sizable. We also construct new astrophobic models in which axion couplings to photons and/or muons are suppressed as well, allowing for axion masses as large as few eV. Most astrophobic models are within the reach of CMB-S4, while some allow for Neff as large as the current upper bound from Planck and thus will be probed by the Simons Observatory. The majority of astrophobic axion models predicting large Neff is also within the reach of IAXO or even BabyIAXO.