Towards Model Agnostic F(R) Gravity Inflation

Abstract

In this work we construct a formalism that can reveal the general characteristics of classes of viable F(R) inflationary theories. The assumptions we make is that the slow-roll era occurs, and that the de Sitter scalaron mass m2(R) of the F(R) gravity is positive or zero, for both the inflationary and late-time quasi de Sitter eras, a necessary condition for the stability of the de Sitter spacetime. In addition, we require that the de Sitter scalaron mass is also a monotonically increasing function of the Ricci scalar, or it has an extremum. Also the F(R) gravity function is required to depend on the two known fundamental scales in cosmology, the cosmological constant and the mass scale ms2=2 m(0)3, with m(0) denoting the energy density of the cold dark matter at the present epoch, that is F(R)=F(R,,ms2). Using these general assumptions we provide the general features of viable classes of F(R) gravity inflationary theories which remarkably can also simultaneously describe successfully the dark energy era. This unique feature of a unified description of the dark energy and inflationary eras stems from the requirement of the monotonicity of the de Sitter scalaron mass m2(R). These viable classes are either deformations of the R2 model or α-attractors type theories. The analysis of the viability of a general F(R) gravity inflationary theory is reduced in evaluating the parameter x=R FRRRFRR and the first slow-roll index of the theory, either numerically or approximately. We also disentangle the power-law F(R) gravities from power-law evolution.

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