Self-consistent solutions for low-frequency gravitational background radiation

Abstract

We study in a Brill-Hartle type of approximation the back-reaction of a superposition of linear gravitational waves in an Einstein-de Sitter background up to the second order in the small wave amplitudes hik. The wave amplitudes are assumed to form a homogeneous and isotropic stochastic process. No restriction for the wavelengths is assumed. The effective stress-energy tensor Teμ is calculated in terms of the correlation functions of the process. We discuss in particular a situation where Teμ is the dominant excitation of the background metric. Apart from the Tolman radiation universe, a solution with the scale factor of the de Sitter universe exists with p = - as effective equation of state.

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