Axion dark matter from extended misalignment with a constant-ωφ pre-oscillatory phase and dark radiation

Abstract

In this work, we extend the standard pre-inflationary misalignment mechanism for axion-like particles (ALPs) by introducing a pre-oscillatory phase with constant equation of state ωφ∈[-1,1], generated by a tracking potential. During the radiation-dominated era, the potential undergoes a rapid transition to the conventional cosine potential. The resulting change in the potential energy across the transition can drive the ALP into a kinetic misalignment phase (ωφ=1) prior to the onset of oscillations. Motivated by persistent cosmological tensions, such as those in H0 and S8, we also investigate an ALP coupling to a dark radiation sector (DR), allowing for its decay. Using a Bayesian analysis, we constrain the ALP parameter space with current cosmological data. Our analysis shows that ALP-induced DR does not resolve the existing tensions. Instead, the data place robust constraints on the model, favoring negative values of ωφ and constraining the symmetry-breaking scale to fφ∈[80,1.5×1010]~TeV, corresponding to ALP masses in the range mφ∈[10-20,10-2]~eV.