Observational constraints on the growth index parameters in f(Q) gravity

Abstract

In this study, we analyse constraints on the growth index of matter perturbations, γ, within the framework of f(Q) gravity, using recent cosmological observations, at the background and the perturbation levels, including Pantheon+, Cosmic Chronometer (CC), and Redshift Space Distortion (RSD) datasets. Our analysis focuses on quantifying the distortion parameter, which measures the deviation of the f(Q) gravity model from the concordance cosmology at the background level. Specifically, we investigate two cases of the growth index parameter: a constant γ and a time-varying γ(z). We investigate various parametrizations of the growth index γ, expressed as γ = γ0 +γ1 y(z), where the function y(z) assumes different forms, including constant (0), Taylor expansion around z = 0 (1), Taylor expansion around the scale factor (2), and an exponential form (3). By employing the Akaike Information Criterion and Bayesian Information Criterion, we find that the combined Pantheon++ CC+ RSD datasets impose stringent constraints on the value of the growth index. For the 0 model, our results indicate that within the concordance model, γ is constrained to 0.545 0.096, showing strong agreement with the theoretical expectation of γ = 611. However, within the framework of f(Q) gravity, we observe γ = 0.571+0.095-0.110, slightly exceeding the value by 4.66 \%. Furthermore, when considering a time-varying growth index, our analysis reveals that the range of γ0 spans from 0.596 to 0.62 across the 1-3 models.