Cosmological analysis of a viable f(R) gravity model

Abstract

Since viable f(R) gravity models must reconcile early-universe inflation with late-time acceleration, we specifically study the dynamical behavior of such a theory during the matter-dominated to dark-energy-dominated transition epoch. By using yH(z) versus z and the Hubble parameter, we solved the field equations. After appropriately choosing appropriate parameter values , we plotted a series of images. We mentioned that their current values are similar to latest observations data and -model values. Furthermore, we plotted the fitting of the distance modulus about this model using SN Ia observation data. Therefore we find that the f(R) gravity model is consistent with the SN Ia data, meanwhile, explains the late-stage acceleration of the Universe. Finally, we used various diagnostic tools including ( r, s), ( r, q), wD-w'D plane, growth rate analysis, statefinder hierarchy and Om(z)-diagnostic to evaluate the observational viability of our model, we perform a systematic comparison with the standard . We found that evolutionary images can be clearly distinguished this model from the .