Hill-top inflation from Dai-Freed anomaly in the standard model -- A solution to the iso-curvature problem of the axion dark matter

Abstract

The discrete symmetry Z4 in the standard model (SM) with three right-handed neutrinos is free from the Dai-Freed anomaly. Motivated by this Z4 symmetry, we constructed a topological inflation model consistent with all known constraints and observations. However, we assumed a specific inflaton potential in the previous work. In this paper we extend the inflaton potential in a more general form allowed by the discrete Z4 gauge symmetry and show that consistent hilltop inflation is realized. We find that the Hubble parameter Hinf can be smaller than 109 GeV so that the isocurvature fluctuations of the axion dark matter are sufficiently suppressed. Furthermore, the running of the spectral index can be as large as dns/ k 0.0018 which will be tested in future CMB observations. Since this discrete Z4 acts on the SM, the inflaton can couple to pairs of the right-handed neutrinos and hence the reheating temperature can be high as 1010 GeV, producing the cosmic baryon asymmetry naturally through the thermal leptogenesis.