Mathematics – Logic
Scientific paper
Sep 1994
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1994jmp....35.4809b&link_type=abstract
Journal of Mathematical Physics, Vol. 35, No. 9, p. 4809 - 4831
Mathematics
Logic
13
Cosmological Models: Robertson-Walker Metric, Cosmological Models: Perturbations
Scientific paper
This article is a discussion of how it is possible to do perturbation theory for the Einstein-Boltzmann system about a dust solution. Explicitly expressed, the background Robertson-Walker universe model and one-parameter families of exact solutions are applied to the Einstein-Boltzmann system to obtain a closed-form solution of the equations governing linearized perturbations at late times, when the nonzero pressure of the gas of massive particles may be regarded as being significantly smaller than the energy density. Due to the specific properties of the background chosen, one can prove that the evolution of suitably defined hydrodynamic variables is exactly decoupled from the evolution of the phase-space function satisfying the linearized Boltzmann equation. For simplicity, the workings of the method are illustrated by assuming that the perturbed metric is also of the Robertson-Walker form.
Banach Zbigniew
Piekarski Slawomir
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