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Main Authors: Munyeshyaka, Albert, Dhankar, Praveen Kumar, Ntahompagaze, Joseph
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.09610
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author Munyeshyaka, Albert
Dhankar, Praveen Kumar
Ntahompagaze, Joseph
author_facet Munyeshyaka, Albert
Dhankar, Praveen Kumar
Ntahompagaze, Joseph
contents Cosmological models based on $f(G)$ gravity are efficient in fitting different observational datasets at both background and perturbation levels. This motivates the current study to take into account dynamical system analysis to investigate the matter power spectrum within the framework of modified Gauss-Bonnet gravity. After defining the dimensionless dynamical system variables for a power-law $f(G)$ model, We derive the full system of equations governing the energy density perturbations for both matter and Gauss-Bonnet fluids using the $1+3$ covariant formalism. After solving the energy density perturbation equations, we compute the matter power spectrum. The importance of studying first order perturbations for the defined $f(G)$ model and the relevance of different initial conditions in computing the matter power spectrum are also stressed. It is reported that matter power spectrum for $f(G)$ gravity, for a particular functional form of $f(G)$ model considered is not scale invariant as the case for General Relativity.
format Preprint
id arxiv_https___arxiv_org_abs_2507_09610
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Matter power spectrum in a power-law $f(G)$ gravity
Munyeshyaka, Albert
Dhankar, Praveen Kumar
Ntahompagaze, Joseph
General Relativity and Quantum Cosmology
Cosmological models based on $f(G)$ gravity are efficient in fitting different observational datasets at both background and perturbation levels. This motivates the current study to take into account dynamical system analysis to investigate the matter power spectrum within the framework of modified Gauss-Bonnet gravity. After defining the dimensionless dynamical system variables for a power-law $f(G)$ model, We derive the full system of equations governing the energy density perturbations for both matter and Gauss-Bonnet fluids using the $1+3$ covariant formalism. After solving the energy density perturbation equations, we compute the matter power spectrum. The importance of studying first order perturbations for the defined $f(G)$ model and the relevance of different initial conditions in computing the matter power spectrum are also stressed. It is reported that matter power spectrum for $f(G)$ gravity, for a particular functional form of $f(G)$ model considered is not scale invariant as the case for General Relativity.
title Matter power spectrum in a power-law $f(G)$ gravity
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2507.09610