Cosmological properties of a generic (\cal R)^2-supergravity

TL;DR

This paper analyzes a quadratic F()-supergravity model, deriving explicit f(R)-gravity functions, applying stability criteria, and discussing its potential cosmological applications.

Contribution

It provides a detailed derivation of f(R)-gravity functions from a quadratic F()-supergravity model and assesses its stability and cosmological relevance.

Findings

Explicit f(R)-gravity functions derived from the supergravity model

Stability conditions restrict physically viable models

Discussion of cosmological implications

Abstract

We investigate in detail the structure of the simplest non-trivial F(\cal R)-supergravity model, whose F-function is given by a generic quadratic polynomial in terms of the scalar supercurvature (\cal R). This toy-model admits a fully explicit derivation of the corresponding f(R)-gravity functions. We apply the stability conditions for selecting the physical f(R)-gravity functions, and discuss the phenomenological prospects of F(\cal R)-supergravity in its application to cosmology.