F(R,w) Gravity: A new gravity framework
Abstract
In this work we present a new framework of the gravity sector by considering the extension F(R,w), in which R is the Ricci scalar and w is the equation of state. Three different choices of function F(R,w) are investigated under the Palatini formalism. The models appear equivalent to F(R) models of gravity with effective momentum-energy tensors. For linear dependence of Ricci scalar in which F(R,w)=k(w)R, the model appears equivalent to Einstein-Hilbert action with effective momentum-energy tensor. Recovering the minimal coupling case of the last choice does not face Jordan-Einstein frame ambiguities and exhibits natural alignments with general relativity results in the matter/ radiation dominated eras. We discuss some astrophysical implications of the model by considering scalar fields as dominant matter forms. We show that the Higgs inflation could be saved within the F(R,w) model. We suggest some future investigations exemplified by constant-roll inflation and universe evolution for F(R)=f(R)k(w) where f(R) represents the Starobinsky gravitational form. Using the model and comparing it with pure F(R) gravity, we provide preliminary indications of F(R,w)'s impact. As a final note, we suggest using the Polytropic equation of state in future works to investigate F(R,w).
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