Observational evidence for Early Dark Energy as a unified explanation for Cosmic Birefringence and the Hubble tension

Abstract

We test the n=3 Ultralight Axion-like model of Early Dark Energy (EDE) with the observationsof the EB mode of the cosmic microwave background (CMB) radiation, and local expansion rate measurements. Our results show that the shape of the CMB EB angular power spectrum is sensitive to the background cosmological parameters. We run Markov chain Monte Carlo (MCMC) simulations to fit the + EDE parameters simultaneously, and find that the EDE model with n=3 can provide a good fit to the observed CMB EB spectra, consistent with the locally measured value of the Hubble constant. Our result is the first to show that axion-like EDE can provide a unified explanation for the observed cosmic birefringence and the Hubble tension.