Probing axion-like particles with the ultraviolet photon polarization from active galactic nuclei in radio galaxies

Abstract

The mixing of photons with axion-like particles (ALPs) in the large-scale magnetic field B changes the polarization angle of a linearly polarized photon beam from active galactic nuclei in radio galaxies as it propagates over cosmological distances. Using available ultraviolet polarization data concerning these sources we derive a new bound on the product of the photon-ALP coupling gaγ times B. We find gaγ B 10-11 GeV-1 nG for ultralight ALPs with ma 10-15 eV. We compare our new bound with the ones present in the literature and we comment about possible improvements with observations of more sources.