Open AccessThermal equilibrium in de Sitter space
Author(s) -
Ian H. Redmount,
F. Ruiz Ruiz
Publication year - 1989
Publication title -
physical review. d. particles, fields, gravitation, and cosmology/physical review. d. particles and fields
Language(s) - English
Resource type - Journals
eISSN - 1089-4918
pISSN - 0556-2821
DOI - 10.1103/physrevd.39.2289
Subject(s) - physics , de sitter space , mathematical physics , de sitter universe , scalar field , de sitter invariant special relativity , thermal equilibrium , negative energy , conformal symmetry , quantum mechanics , vacuum state , vacuum energy , euclidean space , conformal map , mathematical analysis , mathematics , universe
Thermal-equilibrium quantum states are constructed for free scalar fields in (%+1)-dimensional de Sitter space. The states are described by density matrices of "thermal" form, satisfying the von Neumann equation associated with the appropriate functional Schrodinger equation. These solutions exist only for fields with mass and/or curvature coupling corresponding to conformal invariance. The temperature associated with such a state obeys the classical red-shift law. States exist with any temperature value at any given time; the zero-temperature limit is the Euclidean vacuum state. The total field energy of a thermal state above that of the Euclidean vacuum is finite and positive. This excitation energy consists of one contribution which red-shifts classically, but-it can also contain a contribution which grows in time as the radius of the space
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