A novel model-marginalized cosmological bound on the QCD axion mass

Abstract

We present model-marginalized limits on mixed hot dark matter scenarios, which consider both thermal neutrinos and thermal QCD axions. A novel aspect of our analyses is the inclusion of small-scale Cosmic Microwave Background (CMB) observations from the Atacama Cosmology Telescope (ACT) and the South Pole Telescope (SPT), together with those from the Planck satellite and Baryon Acoustic Oscillation (BAO) data. After marginalizing over a number of well-motivated non-minimal background cosmologies, the tightest 95\% CL upper bound we obtain is 0.21 eV, both for Σ m and m a, from the combination of ACT, Planck and BAO measurements. Restricting the analyses to the standard picture, we find Σ m<0.16 eV and m a<0.18 eV, both at 95\% CL. Interestingly, the best background cosmology is never found within the minimal plus hot relics, regardless of the data sets exploited in the analyses. The combination of Planck with either BAO, SPT or ACT prefers a universe with a non-zero value of the running in the primordial power spectrum with strong evidence. Small-scale CMB probes, both alone and combined with BAO, either prefer, with substantial evidence, non-flat universes (as in the case of SPT) or a model with a time varying dark energy component (as in the case of ACT).

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