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Quantum and classical correlations in quantum Brownian motion
release_woajsa7psvfxvfn5snlubcl5ga
by
J. Eisert,
M.B. Plenio
Released
as a article
.
2001
Abstract
We investigate the entanglement properties of the joint state of a
distinguished quantum system and its environment in the quantum Brownian motion
model. This model is a frequent starting point for investigations of
environment-induced superselection. Using recent methods from quantum
information theory, we show that there exists a large class of initial states
for which no entanglement will be created at all times between the system of
salient interest and the environment. If the distinguished system has been
initially prepared in a pure Gaussian state, then entanglement is created
immediately, regardless of the temperature of the environment and the
non-vanishing coupling.
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arXiv
quant-ph/0111016v1
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