Late-time acceleration and inflation in a Poincar\'e gauge cosmological model

Abstract

A self-consistent model which can unify Starobinsky inflation and the model in the framework of Poincar\'e gauge cosmology (PGC) is studied in this work, without extra inflaton and ``dark energy''. We start from the general nine-parameter PGC Lagrangian and get two Friedmann-like analytical solutions with the certain ghost- and tachyon-free conditions on the Lagrangian parameters. The scalar torsion h-determined solution is consistent with Starobinsky cosmology in the early-time and the pseudo-scalar torsion f-determined solution contains naturally a constant ``dark energy'' density, 3(α-1)2/8B0, which covers the model in the late-time. According to the latest observations, we estimate the magnitudes of parameters: α-1 8.07×10-56, B05.76×10-28GeV-2 in the natural units.