Quantum Gravity Cutoff from Axions: A Type IIB Landscape Study

Abstract

Extra-dimensional axions have coupling strength related to fundamental, ultraviolet physics. It has been proposed that the properties of such axions imply a bound on the quantum gravity cutoff: ΛQG 2πS f, where f is the axion decay constant and S is the instanton action. In the context of weakly-coupled string theory, we identify ΛQG with the string scale Ms. In this paper, we carry out a quantitative study of this bound on the string scale in the context of Calabi-Yau compactifications of Type IIB string theory, considering both C2 and C4 axions. We show, both analytically and numerically, that the bound holds even near boundaries of the Kähler moduli space, including those where the co-scaling relationship for axion strings fails. This evidence bolsters previous arguments, based on naturalness and on unitarity, that the bound is a general feature of extra-dimensional axions in quantum gravity.