Betelgeuse Constraints on Coupling between Axion-like Particles and Electrons

Abstract

Axion-like particles (ALPs) can be produced by thermal processes in a stellar interior, escape from the star and, if sufficiently light, be converted into photons in the external Galactic magnetic field. Such a process could produce a detectable hard X-ray excess in the direction of the star. In this scenario, a promising class of targets is the red supergiants, massive stars which are experiencing the late part of their evolution. We report on a search for ALP-induced X-ray emission from Betelgeuse, produced via the combined processes of Bremsstrahlung, Compton and Primakoff. Using a 50 ks observation of Betelgeuse by the NuSTAR satellite telescope, we set 95\% C.L. upper limits on the ALP-electron (gae) and ALP-photon (gaγ) couplings. For masses ma≤(3.5-5.5)×10-11 eV, we find gaγ × gae< (0.4-2.8)×10-24 GeV-1 (depending on the stellar model and assuming a value of the regular Galactic magnetic field in the direction transverse to Betelgeuse of BT=1.4 μG). This corresponds to gae<(0.4-2.8) ×10-12 for gaγ>1.0×10-12 GeV-1. This analysis supercedes by over an order of magnitude the limit on gae × gaγ placed by the CAST solar axion experiment and is among the strongest constraints on these couplings.