Testing the ns-H0 scaling relation with Planck-independent CMB data

Abstract

In early dark energy (EDE) resolution of Hubble tension, the spectral index ns of primordial scalar perturbation follows a scaling relation δ ns 0.4δ H0H0, where H0 is the Hubble constant. However, this ns-H0 relation was obtained based on the datasets including Planck cosmic microwave background (CMB) data. In this paper, we investigate this scaling relation with Planck-independent CMB data, i.e. ACT and SPT-3G combined with WMAP(+BAO+Pantheon), respectively. Our results show that the WMAP+SPT-3G dataset also follows this scaling relation, while the WMAP+ACT dataset seems to favor smaller ns, which is related to the fact that the critical redshift zc, at which EDE is excited, favored by the WMAP+ACT dataset is lower and closer to the recombination time.