Impact of the latest measurement of Hubble constant on constraining inflation models

Abstract

We investigate how the constraint results of inflation models are affected by considering the latest local measurement of H0 in the global fit. We use the observational data, including the Planck CMB full data, the BICEP2 and Keck Array CMB B-mode data, the BAO data, and the latest measurement of Hubble constant, to constrain the +r+N eff model, and the obtained 1σ and 2σ contours of (ns, r) are compared to the theoretical predictions of selected inflationary models. We find that, in this fit, the scale invariance is only excluded at the 3.3σ level, and N eff>0 is favored at the 1.6σ level. The natural inflation model is now excluded at more than 2σ level; the Starobinsky R2 model becomes only favored at around 2σ level; the most favored model becomes the spontaneously broken SUSY inflation model; and, the brane inflation model is also well consistent with the current data, in this case.