Exact cosmological solution of a Scalar-Tensor Gravity theory compatible with the CDM model

Abstract

We consider the massive scalar-tensor theory in the Jordan frame F() =K22 and U() =(1/2)m22, where F() corresponds to a constant Brans-Dicke parameter ωBD=1/4K2. The constraint of the Solar System experiments is K2<(1/400)2. For dustlike matter in a spatially flat homogeneous isotropic universe, we reduce the equations of motion to a system of two differential equations of first order which can be exactly solved. We obtain simple and explicit expressions for (z)(0) and H(z)H0 that depend only on two parameters, K2 and m,0. For K≤1/400 the expansion rate H(z) can be practically superposed on the solution H(z), up to high redshift z, but the equation of state wDE(z) of the dark energy is not constant: it presents a very slight crossing of the phantom divide line w=-1 in the neighborhood of z=0 and becomes very slightly positive at high redshifts.