New Bounds for Axions and Axion-Like Particles with keV-GeV Masses

Abstract

We give updated constraints on hypothetical light bosons with a two-photon coupling such as axions or axion-like particles (ALPs). We focus on masses and lifetimes where decays happen near big bang nucleosynthesis (BBN), thus altering the baryon-to-photon ratio and number of relativistic degrees of freedom between the BBN epoch and the cosmic microwave background (CMB) last scattering epoch, in particular such that N eff CMB < N eff BBN and η CMB < η BBN. New constraints presented here come from Planck measurements of the CMB power spectrum combined with the latest inferences of primordial 4He and D/H abundances. We find that a previously allowed region in parameter space near m=1\, MeV and τ=100\, ms, consistent with a QCD axion arising from a symmetry breaking near the electroweak scale, is now ruled out at >3σ by the combination of CMB+D/H measurements if only ALPs and three thermalized neutrino species contribute to N eff. The bound relaxes if there are additional light degrees of freedom present which, in this scenario, have their contribution limited to N eff=1.10.3. We give forecasts showing that a number of experiments are expected to reach the sensitivity needed to further test this region, such as Stage-IV CMB and SUPER-KEKB, the latter a direct test insensitive to any extra degrees of freedom.