The cosmology of f(R, Lm) gravity: constraining the background and perturbed dynamics

Abstract

This paper delves into the late-time accelerated expansion of the universe and the evolution of cosmic structures within the context of a specific \( f(R, Lm) \) gravity model, formulated as \( f(R, Lm) = λ R + β Lmα + η \). To study the cosmological viability of the model, we employed the latest cosmic measurement datasets: i) 57 observational Hubble parameter data points (OHD); ii) 1048 distance moduli data points (SNIa); iii) a combined dataset (OHD+SNIa); and large scale structure datasets, including iv) 14 growth rate data points (f); and v) 30 redshift space distortion data points (fσ8). These datasets facilitated the constraint of the \( f(R, Lm) \)-gravity model via MCMC simulations, followed by a comparative analysis with the \(\)CDM model. A comprehensive statistical analysis has been conducted to evaluate the \( f(R, Lm) \)-gravity model's efficacy in explaining both the accelerated expansion of the universe and the growth of cosmic structures.