A Supernova Constraint on F-theory

Abstract

We study constraints on the quantum chromodynamics (QCD) axion in F-theory, a strongly coupled limit of string theory. We build models of QCD from compactifications to four dimensions on elliptic fibrations over toric threefolds B3, characterized by an integer N=h1,1(B3). The QCD axion mass increases with N, and we find that models with sufficiently high N are inconsistent with observations of the neutrino burst from supernova 1987A, disfavoring large regions of the moduli space. Specifically, at least 95\% of models with N 8,791 -- a regime that arguably contains the vast majority of known F-theory topologies -- have a QCD axion mass mQCD>15~meV and are thus constrained. This limit is independent of cosmology. We only consider weakly-curved threefolds, where α' corrections are plausibly negligible.