Journal
PHYSICS LETTERS B
Volume 785, Issue -, Pages 254-261Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.physletb.2018.08.073
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Funding
- STFC [ST/P00055X/1]
- STFC [ST/P00055X/1] Funding Source: UKRI
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We explain in detail the quantum-to-classical transition for the cosmological perturbations using only the standard rules of quantum mechanics: the Schrodinger equation and Born's rule applied to a subsystem. We show that the conditioned, i.e. intrinsic, pure state of the perturbations, is driven by the interactions with a generic environment, to become increasingly localized in field space as a mode exists the horizon during inflation. With a favourable coupling to the environment, the conditioned state of the perturbations becomes highly localized in field space due to the expansion of spacetime by a factor of roughly exp(-c Delta N), where Delta N similar to 50 and c is a model dependent number of order 1. Effectively the state rapidly becomes specified completely by a point in phase space and an effective, classical, stochastic process emerges described by a classical Langevin equation. The statistics of the stochastic process is described by the solution of the master equation that describes the perturbations coupled to the environment. (C) 2018 Published by Elsevier B.V.
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