Accelerated expansion from cosmological holography

Abstract

It is shown that holographic cosmology implies an evolving Hubble radius c-1RH = -1 + 3ωm in the presence of a dimensionless matter density ωm scaled to the closure density 3H2/8πG, where c denotes the velocity of light and H and G denote the Hubble parameter and Newton's constant. It reveals a dynamical dark energy and a sixfold increase in gravitational attraction to matter on the scale of the Hubble acceleration. It reproduces the transition redshift zt {minus tilde}{combining long vertical line 0.4 to the present epoch of accelerated expansion and is consistent with (q0, (dq/dz)0) of the deceleration parameter q(z) = q0 + (dq/dz)0z observed in Type Ia supernovae.