Reionization and the Hubble Constant: Correlations in the Cosmic Microwave Background

Abstract

Recently, the James Webb Space Telescope (JWST) has found early galaxies producing photons from more efficient ionization than previously assumed. This may suggest a reionization process with a larger reionization optical depth, τ reio, in some mild disagreement with that inferred from measurements of cosmic microwave background (CMB). Intriguingly, the CMB would prefer larger values of τ reio, more consistent with the recent JWST hint, if the large-scale measurements (i.e. <30) of E-mode polarization are removed. In addition, τ reio has an indirect correlation with today's Hubble constant H0 in . Motivated by these interesting observations, we investigate and reveal the underlying mechanism for this correlation, using the CMB dataset without the low- polarization data as a proxy for a potential cosmology with a larger τ reio. We further explore how this correlation may impact the Hubble tension between early and late universe measurements of H0, in as well as two proposals to alleviate the Hubble tension: the dark radiation (DR) and early dark energy (EDE) models. We find that the Hubble tension gets further reduced mildly for almost all cases due to the larger τ reio and its positive correlation with H0, with either the Baryon Acoustic Oscillations (BAO) data before those from the Dark Energy Spectroscopic Instrument (DESI) or the DESI data.

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