Axion couplings in Orbifold GUTs

TL;DR

This paper explores how axion couplings to gauge bosons in orbifold GUTs depend solely on the embedding of the Standard Model into the UV gauge group, revealing their similarities and differences with 4D GUT axions and implications for axion-photon interactions.

Contribution

It provides a detailed analysis of axion-gauge boson couplings in orbifold GUTs, highlighting their topological nature and the distinct behaviors of bulk versus brane-localized axions.

Findings

Bulk axion-photon couplings match 4D GUT results.

Brane-localized axions can couple to photons independently of QCD.

The ratio g_{aγγ}/m_a is bounded by the QCD axion value.

Abstract

We consider the coupling of axions to gauge bosons in higher-dimensional Grand Unified Theories (GUT) inspired by string theory constructions with D-branes on orbifold singularities, the so-called orbifold GUTs. Due to their topological properties, axion couplings to gauge bosons are independent of the gauge symmetry reduction mechanism and the background geometry -- they only depend on the embedding of the SM into the UV gauge group. There are two kinds of axions in this class of theories: axions coming from gauge fields in the bulk and axions localised on the boundaries. The axion-photon coupling for the bulk axions coincide with the results from 4-dimensional GUTs, where axions which couple to photons necessarily couple also to QCD. The brane-localised axions can couple to photons independently of the QCD coupling, but if gauge couplings are approximately unified, the axions get large masses from unsuppressed instantons on the boundaries. This means that the ratio $g_{a\gamma\gamma}/m_a$ is below (or equal to) the QCD axion value for all axions in orbifold GUTs, as is the case for unified theories in 4d.