A consistency test of the cosmological model at the epoch of recombination using DESI BAO and Planck measurements

Abstract

The value of the Hubble constant determined from CMB and BAO measurements is directly dependent on the sound horizon at the photon-baryon decoupling. There has been significant interest in the possibility of new physics at the epoch around recombination that could reduce the sound horizon and increase the inferred value of H0, thus helping to relieve the Hubble tension. One way to determine if new physics is required would be to measure H0 from BAO and CMB without assuming any model for computing the sound horizon. In this study, we use the recently released DESI Year 1 BAO data combined with the CMB acoustic scale and the Planck prior on m h2 to determine H0 while treating the sound horizon at baryon decoupling r d as a free parameter. We find H0=69.48 0.94 km/s/Mpc, which is 2σ larger than H0 = 67.44 0.47 km/s/Mpc in the Planck-best-fit where r d is derived using the standard recombination model. For comparison, we perform the same analysis using the pre-DESI BAO data with the CMB acoustic scale and the same prior on m h2, finding H0= 68.05 0.94 km/s/Mpc. This difference derives from the notably larger value of the product r dh measured by DESI. We compare results obtained with and without including the Pantheon Plus sample of uncalibrated supernovae magnitudes in our analysis. Future BAO data from DESI will help determine if the cosmological model at the epoch of recombination model requires a modification.

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