Observable windows for the QCD axion through Neff

Abstract

We show that when the QCD axion is directly coupled to quarks with cq/f \, ∂μ a \, q γμ γ5 q, such as in DFSZ models, the dominant production mechanism in the early universe at temperatures 1 \, GeV T 100 \, GeV is obtained via q q g a and q g q a, where g are gluons. Different heavy quarks qi can produce a thermal axion background that decouples at a temperature Ti: (1) top quark at Tt 100 \, GeV for f/ct 3× 108 GeV; (2) bottom quark at Tb mb, for f/cb 8× 107 GeV; (3) charm quark at Tc mc for f/cc 5× 107 GeV. Each of these cases corresponds to a contribution to the effective number of relativistic degrees of freedom, in the windows given by 0.027 ≤ Neff≤ 0.031, 0.037 ≤ Neff ≤ 0.039 and 0.039 ≤ Neff, respectively. These contributions are larger than the one obtained when thermalization happens only above the electroweak phase transition, N eff 0.027, and are within reach of future CMB S4 experiments, thus opening an alternative window to detect the axion and to test the early universe at such temperatures.