Holographic Dark Energy in Brans-Dicke Theory

Abstract

In this paper, the holographic dark energy model is considered in Brans-Dicke theory where the holographic dark energy density =3c2 M2pl L-2 is replaced with h=3c2 (t)L-2. Here (t)=18π G is a time variable Newton constant. With this replacement, it is found that no accelerated expansion universe will be achieved when the Hubble horizon is taken as the role of IR cut-off. When the event horizon is adopted as the IR cut-off, an accelerated expansion universe is obtained. In this case, the equation of state of holographic dark energy wh takes a modified form wh=-1/3(1+α+2ch). In the limit α 0, the 'standard' holographic dark energy is recovered. In the holographic dark energy dominated epoch, power-law and de Sitter time-space solutions are obtained.