Perturbation of the metric around a spherical body from a nonminimal coupling between matter and curvature

Abstract

In this work, the effects of a nonminimally coupled model of gravity on a perturbed Minkowski metric are presented. The action functional of the model involves two functions f1(R) and f2(R) of the Ricci scalar curvature R. Based upon a Taylor expansion around R = 0 for both functions f1(R) and f2(R), we find that the metric around a spherical object is a perturbation of the weak-field Schwarzschild metric: the time perturbation is shown to be a Newtonian plus Yukawa term, which can be constrained using the available experimental results. We conclude that the Starobinsky model for inflation complemented with a generalized preheating mechanism is not experimentally constrained by observations. The geodetic precession effects of the model are also shown to be of no relevance for the constraints.