Growth Rate Analysis in f(R,Lm) Gravity: A Comparative Study with Cosmology

Abstract

We investigate the evolution of cosmic structures within the framework of modified gravity, specifically focusing on theories described by the function f(R, Lm), where R is the Ricci scalar and Lm is the matter Lagrangian. This class of models introduces a non-minimal coupling between geometry and matter, leading to modifications in the dynamics of density perturbations. We derive the linear growth equation and compute the observable growth rate fσ8(z), which is directly accessible from redshift-space distortion (RSD) data. Using recent observational constraints from galaxy surveys such as eBOSS and DESI, we perform a comparative analysis between predictions from f(R, Lm) gravity and the standard model. Our results indicate that while remains broadly consistent with current data, the f(R, Lm) framework can accommodate subtle deviations in structure growth, offering a possible resolution to existing tensions in large-scale structure observations. We also outline the implications of our findings for future surveys, including Euclid and LSST.