Observational constraints on α-Starobinsky inflation

Abstract

In this work we revisit α-Starobinsky inflation, also know as E-model, in the light of current CMB and LSS observations. The inflaton potential in the Einstein frame for this model contains a parameter α in the exponential, which alters the predictions for the scalar and tensor power spectra of Starobinsky inflation. We obtain these power spectra numerically without using slow-roll approximation and perform MCMC analysis to put constraints on parameters M and α from Planck-2018, BICEP/Keck (BK18) and other LSS observations. We consider general reheating scenario by varying the number of e-foldings during inflation, Npivot, along with the other parameters. We find 10α = 0.0+1.6-5.6, 10M= -4.91+0.69-2.7 and Npivot = 53.2+3.9-5 with 95\% C. L.. This implies that the present CMB and LSS observations are insufficient to constrain the parameter α. We also find that there is no correlation between Npivot and α.