Natural inflation with multiple sub-Planckian axions

Abstract

We extend the Kim-Nilles-Peloso (KNP) alignment mechanism for natural inflation to models with N>2 axions, which obtains a super-Planckian effective axion decay constant feff MPl through an alignment of the anomaly coefficients of multiple axions having sub-Planckian fundamental decay constants f0 MPl. The original version of the KNP mechanism realized with two axions requires that some of the anomaly coefficients should be of the order of feff/f0, which would be uncomfortably large if f eff/f0 O(100) as suggested by the recent BICEP2 results. We note that the KNP mechanism can be realized with the anomaly coefficients of O(1) if the number of axions N is large as N N 2 (feff/f0), in which case the effective decay constant can be enhanced as f eff/f0 N !\,nN-1 for n denoting the typical size of the integer-valued anomaly coefficients. Comparing to the other multiple axion scenario, the N-flation scenario which requires N feff2/f02, the KNP mechanism has a virtue of not invoking to a too large number of axions, although it requires a specific alignment of the anomaly coefficients, which can be achieved with a probability of O(f0/f eff) under a random choice of the anomaly coefficients. We also present a simple model realizing a multiple axion monodromy along the inflaton direction.