On inflationary parameters in scalar-tensor theories

Abstract

The equivalence between f(R) and scalar-tensor theories is revisited, we consequently explored different f(R) models. After consideration of specific definition of the scalar field, we derived the potentials V(φ) for each f(R) model focusing on the early Universe, mostly the inflation epoch. For a given potential, we applied the slow-roll approximation approach to each f(R) model and obtained the expressions for the spectral index ns and tensor-to-scalar ratio r. We determined the corresponding numerical values associated with each of the f(R) models. Our results showed that for certain choice of parameter space, the values of ns and r are consistent with the Planck survey results and others produce numerical values that are in the same range as suggested by Planck data. We further constructed the Klein-Gordon equations (KGE) of each f(R) model. We found numerical solutions to each KGE considering different values of free parameters and initial conditions of each f(R) model. All models showed that the scalar field decreases as time increases, an indication that there is less content of the scalar field in the late Universe.

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