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Signature of f(R) gravity via Lemaître–Tolman–Bondi inhomogeneous perturbations

T. Schiavone, G. Montani

Abstract
We analyze inhomogeneous cosmological models in the local Universe, described by the Lemaître–Tolman–Bondi (LTB) metric and developed using linear perturbation theory on a homogeneous and isotropic Universe background. Focusing on the different evolution of spherical symmetric inhomogeneities, we compare the ΛLTB model, in which the cosmological constant Λ is included in the LTB formalism, with inhomogeneous cosmological models based on f(R) modified gravity theories viewed in the Jordan frame. We solve the system of field equations for both inhomogeneous cosmological models adopting the method of separation of variables: we integrate analytically the radial profiles of local perturbations, while their time evolution requires a numerical approach. The main result of the analysis concerns the different radial profiles of local inhomogeneities due to the presence of a non-minimally coupled scalar field in the Jordan frame of f(R) gravity. While radial perturbations follow a power-law in the ΛLTB model, Yukawa-like contributions appear in the f(R) theory. Interestingly, this latter peculiar behavior of radial profile is not affected by the choice of the f(R) functional form. The numerical solution of time-dependent perturbations exhibits a non-diverging profile. This work suggests that investigations about local inhomogeneities in the late Universe may allow us to discriminate if the present cosmic acceleration is caused by a cosmological constant term or a modified gravity effect.

The European Physical Journal C
2024 May

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Faculdade de Ciências da Universidade de Lisboa Universidade do Porto Faculdade de Ciências e Tecnologia da Universidade de Coimbra
Fundação para a Ciência e a Tecnologia COMPETE 2020 PORTUGAL 2020 União Europeia