Reconstructing f(R) gravity from viscous cosmology constrained by observations

Abstract

In this paper, we reconstruct the f(R) theory using the viscous ωCDM scenario (V-ωCDM) constrained by several differently astrophysical observations, including Type Ia supernovae (SNe Ia), observational Hubble parameter data (OHD), Wilkinson Microwave Anisotropy Probe 9-year data (WMAP-9), Planck observations and the single data point from the newest event GW150914 (GW). We find that the joint constraints from SNe Ia+OHD+Planck+GW data-sets give out a tighter restriction for the parameters of the V-ωCDM scenario than other constraints. Subsequently, we find that there exists a substantially high degeneracy among these reconstructed f(R) theories in the past, and that they start exhibiting differently evolutional behaviors around the present epoch as well as much different in the distant future. Furthermore, we make a comparison between the reconstructed f(R) theory with the V-ωCDM scenario and that with the ωCDM scenario constrained by using the SNe Ia+OHD+Planck+GW data-sets in the f(R)-R plane, and find that the two scenarios share an extremely high degeneracy, which implies that the effect of bulk viscosity plays a negligible role in the V-ωCDM model during the whole evolutionary processes of the universe. In addition, one can also find that the reconstructed f(R) theories using the two models just deviate from the standard Einstein gravity a little.