Issues in Palatini R2 inflation: Bounds on the Reheating Temperature

Abstract

We consider R2-inflation in Palatini gravity, in the presence of scalar fields coupled to gravity. These theories, in the Einstein frame, and for one scalar field h, share common features with K - inflation models. We apply this formalism for the study of single-field inflationary models, whose potentials are monomials, V hn , with n a positive even integer. We also study the Higgs model non-minimally coupled to gravity. With R2-terms coupled to gravity as α R2 , with α constant, the instantaneous reheating temperature Tins, is bounded by Tins ≤ 0.290 \, mPlanck / \, α1/4 , with the upper bound being saturated for large α. For such large α need go beyond slow-roll to calculate reliably the cosmological parameters, among these the end of inflation through which Tins is determined. In fact, as inflaton rolls towards the end of inflation point, the quartic in the velocity terms, unavoidable in Palatini gravity, play a significant role and can not be ignored. The values of α, and other parameters, are constrained by cosmological data, setting bounds on the inflationary scale Ms 1/α and the reheating temperature of the Universe.