Arjun Berera
Published 1996-01-24, updated 1996-05-21Version 2
An energetic justification of a thermal component during inflation is given. The thermal component can act as a heat reservoir which induces thermal fluctuations on the inflaton field system. We showed previously that such thermal fluctuations could dominate quantum fluctuations in producing the initial seeds of density perturbations. A Langevin-like rate equation is derived from quantum field theory which describes the production of fluctuations in the inflaton field when acted upon by a simple modeled heat reservoir. In a certain limit this equation is shown to reduce to the standard Langevin equation, which we used to construct "Warm Inflation" scenarios in previous work. A particle physics interpretation of our system-reservoir model is offered.
Comments: 28 pages, 0 figures, In Press Physical Review D 1996
Journal: Phys.Rev. D54 (1996) 2519-2534
Spontaneous Creation of Inflationary Universes and the Cosmic Landscape
Inflationary universe in a conformally-invariant two scalar-field theory with an $R^2$ term
Prospects of Inflation
