Equality scale-based and sound horizon-based analysis of the Hubble tension

Abstract

The Hubble horizon at matter-radiation equality (k-1eq) and the sound horizon at the last scattering surface (rs(z*)) provides interesting consistency check for the model and its extensions. It is well known that the reduction of rs can be compensated by the increase of H0, while the same is true for the standard rulers keq. Adding extra radiational component to the early universe can reduce keq. The addition of early dark energy (EDE), however, tends to increase keq. We perform keq- and rs-based analyses in both the EDE model and the Wess-Zumino Dark Radiation (WZDR) model. In the latter case we find H0 = 0.4 between the rs- and keq-based datasets, while in the former case we find H0 = 1.2. This result suggests that the dark radiation scenario is more consistent in the fit of the two standard rulers (keq and rs). As a forecast analyses, we fit the two models with a mock keq prior derived from Planck best-fit model. Compared with the best-fit H0 in baseline model, we find H0 = 1.1 for WZDR model and H0 = - 2.4 for EDE model.