Cosmological window onto the string axiverse and the supersymmetry breaking scale

Abstract

In the simplest picture, the masses of string axions populating the axiverse depend on two parameters: the supersymmetry breaking scale M susy and the action S of the string instantons responsible for breaking the axion shift symmetry. In this work, we explore whether cosmological data can be used to probe these two parameters. Adopting string-inspired flat priors on 10M susy and S, and imposing that M susy be sub-Planckian, we find S=19828. These bounds suggest that cosmological data complemented with string-inspired priors select a quite narrow axion mass range within the axiverse, 10(ma/ eV) = -21.5+1.3-2.3. We find that M susy remains unconstrained due to a fundamental parameter degeneracy with S. We explore the significant impact of other choices of priors on the results, and we comment on similar findings in recent previous literature.