Open AccessEvidence for a Cosmological Phase Transition on the TeVScale
Author(s) -
James Lindesay,
H. Pierre Noyes
Publication year - 2005
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/878749
Subject(s) - cosmic microwave background , physics , planck , amplitude , coherence (philosophical gambling strategy) , phase transition , universe , theoretical physics , metric expansion of space , cosmic background radiation , cosmic cancer database , quantum , statistical physics , quantum mechanics , cosmology , astrophysics , dark energy , anisotropy
Examining the reverse evolution of the universe from the present, long before reaching Planck density dynamics one expects major modifications from the de-coherent thermal equations of state, suggesting a prior phase that has macroscopic coherence properties. The assumption that the phase transition occurs during the radiation dominated epoch, and that zero-point motions drive the fluctuations associated with this transition, specifies a class of cosmological models in which the cosmic microwave background fluctuation amplitude at last scattering is approximately 10{sup -5}. Quantum measurability constraints (e.g. uncertainly relations) define cosmological scales whose expansion rates can be at most luminal
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