Holographic β function in de Sitter space

Abstract

We investigate infrared logarithms in de Sitter space from holographic perspective. We employ a gravitational Fokker-Planck equation to investigate the time evolution of the de Sitter entropy S=π/(GN H2), where H is the Hubble parameter and GN is the Newton's constant. Under the Gaussian approximation, we obtain the dynamical β function of g=1/S. It is asymptotically free toward the future. It also possesses the ultraviolet fixed point indicating that the Universe started the de Sitter expansion at the Planck scale. The pre-inflation era exists to prepare a special initial condition for the inflation era as a quantum remnant.