http://arxiv.org/abs/2305.06392
Nowadays, efforts are being devoted to the study of alternative cosmological scenarios, in which, modifications of General Relativity (GR) theory have been proposed to explain the late cosmic acceleration, without assuming the existence of the dark energy (DE) component. We investigate the $R^2$-corrected Appleby-Battye model, or $R^2$-AB model, which consists of an $f(R)$ model with only one extra free parameter $b$, besides the cosmological parameters of the flat-$\Lambda$CDM model: $H_0$ and $\Omega_{m,0}$. Regarding this model, it was already shown that a positive value for $b$ is required for the model to be consistent with Solar System tests, moreover, the condition for the existence of a de~Sitter state requires $b \ge 1.6$. To impose observational constraints on the $R^2$-AB model, we consider in our analyses two data sets: cosmic chronometer $H(z)$ data for the background level, and $f\sigma_8$ data, for the perturbative level. The first one provides $b = 1.6^{+3.1}{-0.0}$ and the cosmological parameters ${H_0 ,\Omega{m,0}}$ in agreement to Planck values, while the second one, indicates $b = 1.76^{+2.91}{-0.15}$ and the parameters ${\Omega{m,0},\sigma_{8,0} }$ also in agreement to Planck values; in the last case the data was marginalized over the parameter $H_0$. Additionally, we perform illustrative analyses that compare this $f(R)$ model with the flat-$\Lambda$CDM model, considering several values of the parameter $b$, for diverse cosmological functions like the Hubble function $H(z)$, the equation of state $w_{eff}(z)$, the parametrized growth rate of cosmic structures $f \sigma_8$, and $\sigma_8(z)$. The overall conclusion is that the $R^2$-AB model is a promising $f(R)$ model that deserves to continue being tested with diverse cosmological data.
B. Ribeiro, A. Bernui and M. Campista
Fri, 12 May 23
32/53
Comments: N/A
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