Axion-like Dark Matter Constraints from CMB Birefringence

Abstract

Axion-like particles are dark matter candidates motivated by the Peccei-Quinn mechanism and also occur in effective field theories where their masses and photon couplings are independent. We estimate the dispersion of circularly polarized photons in a background of oscillating axion-like particles (ALPs) with the standard gaγ\,a\,Fμ Fμ/4 coupling to photons. This leads to birefringence or rotation of linear polarization by ALP dark matter. Cosmic microwave background (CMB) birefringence limits α (1.0) enable us to constrain the axion-photon coupling gaγ 10-17-10-12\, GeV-1, for ultra-light ALP masses ma 10-27 - 10-24 eV. This improves upon previous axion-photon coupling limits by up to four orders of magnitude. Future CMB observations could tighten limits by another one to two orders.