Late-time cosmology in f(Q, Lm) gravity: Analytical solutions and observational fits

Abstract

In this study, we examined the late-time cosmic expansion of the universe within the framework of f(Q, Lm) gravity, where Q denotes the non-metricity and Lm represents the matter Lagrangian. We analyzed a linear f(Q, Lm) model of the form f(Q, Lm) = -α Q + 2 Lm + β. Using MCMC methods, we constrained the model parameters H0, α, and β with various datasets, including H(z), Pantheon+SH0ES, and BAO data. For the H(z) dataset, we found H0 = 67.90 0.66, α = 0.1072-0.0069+0.0054, and β = -1988.2 1.0. For the Pantheon+SH0ES dataset, H0 = 70.05 0.68, α = 0.0916-0.0033+0.0028, and β = -1988.3 1.0. For the BAO dataset, H0 = 68.1 1.0, α = 0.1029-0.0052+0.0041, and β = -1988.24 0.99. Moreover, the energy density remains positive and approaches zero in the distant future, and the deceleration parameter indicates a transition from deceleration to acceleration, with transition redshifts of zt = 0.60, zt = 0.78, and zt = 0.66 for the respective datasets. These findings align with previous observational studies and contribute to our understanding of the universe's expansion dynamics.