Structure growth in f(Q) cosmology
Abstract
We take into account redshift-space distortion measurements to investigate the growth of cosmological large-scale structures within the framework of modified symmetric teleparallel f(Q) gravity. After comparing the predictions of the f(Q)-gravity expansion history with OHD and SNIa Pantheon+ sample datasets and constraining the pertinent cosmological parameters m and H0, together with the exponent n for f(Q) power-law models, we derive the full system of equations governing linear cosmological perturbations to study matter fluctuations using the 1 + 3 covariant formalism when applied to f(Q) gravity. Thus, we resort to both the usual redshift-space distortion data fσ8 and some recent separate measurements of the growth rate f and the amplitude of matter fluctuations σ8 from the VIPERS and SDSS collaborations to find the best-fit cosmological parameters m, σ8 and n. We also apply a collective analysis of such growth-structure data together with the aforementioned cosmic expansion measurements, to restrict these parameters through Monte Carlo Markov Chain simulations. determining the statistical significance for the best-fit parameter values through the AIC and BIC Bayesian selection criteria.
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