The Hubble Constant in the Axi-Higgs Universe

Abstract

The model provides an excellent fit to the CMB data. However, a statistically significant tension emerges when its determination of the Hubble constant H0 is compared to the local distance-redshift measurements. The axi-Higgs model, which couples an ultralight axion to the Higgs field, offers a specific variation of the model. It relaxes the H0 tension as well as explains the 7Li puzzle in Big-Bang nucleosynthesis, the clustering S8 tension with the weak-lensing data, and the observed isotropic cosmic birefringence in CMB. In this paper, we demonstrate how the H0 and S8 tensions can be relaxed simultaneously, by correlating the axion impacts on the early and late universe. In a benchmark scenario (m=2 × 10-30 eV) selected for experimental tests soon, the analysis combining the CMB+BAO+WL+SN data yields H0 = 69.9 1.5 km/s/Mpc and S8 = 0.8045 0.0096. Combining this (excluding the SN (supernovae) part) with the local distance-redshift measurements yields H0 = 72.42 0.76 km/s/Mpc, while S8 is slightly more suppressed.