Cosmic Matter Creation from Viscous Energy Dissipation: A Resurrection of Fred Hoyles Dream
Abstract
Hans J Fahr and Robindro Dutta-Roy
Fred Hoyle is known as creator of the so-called “steady state universe” which latter, although permanently expanding, does not change its state of matter, especially keeping its density constant. To achieve this virtue Hoyle introduced into the energy-momentum tensor of the GRT field equations a term derived from a so-called ad-hoc creation field astonishingly leading to field equations very similar to the ones already developed by Tolman when introducing energy sources connected with viscous dissipation forces acting upon dust-like cosmic matter [1]. In this article here we shall again study the action of viscous forces in cosmic baryonic matter and shall boil it down to volume viscosity contributions to the viscous stress tensor in a universe with a compressible Hubble flow. Assuming that by collisions of any kind the energy of the differential Hubble drift between two collision points of cosmic matter particles, seen in the non-inertial rest frames of moving particles, is randomized and converted into thermal energy, one can then show with the help of a kinetic transport equation that during the cosmic expansion permanently thermal energy is generated leading to the result that the matter temperature, instead of falling-off, is linearly increasing with the scale of the universe. This not only questions the standard use of the model of pressure-free, dust-like matter in the universe, but furthermore indicates the possibility of an asymptotic cosmic-ray-like matter state including the possibility of matter creation by pair production.