Palatini formulation of modified gravity with squared scalar curvature

Xinhe Meng; Peng Wang

Palatini formulation of modified gravity with squared scalar curvature

Xinhe Meng, Peng Wang

Abstract

In this paper we derive the Modified Friedmann equation in the Palatini formulation of $R^2$ gravity. Then we use it to discuss the problem of whether in Palatini formulation a $R^2$ term can drive an inflation. We show that the Palatini formulation of $R^2$ gravity cannot lead to gravity-driven inflation. If considering no zero radiation and matter energy densities, we show that only under rather restrictive assumption about the radiation and matter energy densities there will be a mild power-law inflation $a\sim t^2$.

Palatini formulation of modified gravity with squared scalar curvature

Abstract

In this paper we derive the Modified Friedmann equation in the Palatini formulation of

gravity. Then we use it to discuss the problem of whether in Palatini formulation a

term can drive an inflation. We show that the Palatini formulation of

gravity cannot lead to gravity-driven inflation. If considering no zero radiation and matter energy densities, we show that only under rather restrictive assumption about the radiation and matter energy densities there will be a mild power-law inflation

Palatini formulation of modified gravity with squared scalar curvature

Abstract

Palatini formulation of modified gravity with squared scalar curvature

Abstract

Paper Structure