Towards early dark energy and ns=1 with Planck, ACT and SPT

Abstract

We investigate the constraints on early dark energy (EDE) by combining the most recent CMB observations available, ACT DR4, SPT-3G, and Planck2018 (TT,max=1000) data. This combined CMB dataset favors non-zero EDE fractions and large Hubble constants. The inclusion of BAO+Pantheon data has little effect on the results, leads to H0=71.6( 72.9)-1.5+2.0 and 73.17(72.74)+0.55-0.77 km/s/Mpc for axion-like EDE and AdS-EDE, respectively. The axion-like EDE can fit the data significantly better ( 2 -10) than , which is mainly driven by the ACT data. It is found again that if the current H0 measured locally is correct, complete resolution of the Hubble tension seems to be pointing towards a scale invariant Harrison-Zeldovich spectrum of primordial scalar perturbation, i.e. ns=1 for H0 73 km/s/Mpc.