Quantum dynamics in phase space: From coherent states to the Gaussian   representation

P.D. Drummond; P. Deuar; T.G. Vaughan; J.F. Corney

arXiv:0710.2831·cond-mat.other·July 12, 2017

Quantum dynamics in phase space: From coherent states to the Gaussian representation

P.D. Drummond, P. Deuar, T.G. Vaughan, J.F. Corney

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TL;DR

This paper discusses the future of quantum coherence and many-body dynamics in ultra-cold atom experiments, presenting new results on quantum heating and simulation methods for long-range interactions using phase-space techniques.

Contribution

It introduces novel insights into quantum heating and advanced simulation methods for long-range interactions in ultra-cold atoms.

Findings

01

Quantum heating of center-of-mass temperature during evaporative cooling

02

Development of phase-space simulation techniques for long-range interactions

03

Insights into coherence theory and many-body quantum dynamics

Abstract

We give an outlook on the future of coherence theory and many-body quantum dynamics as experiments develop in the arena of ultra-cold atoms. Novel results on quantum heating of center-of-mass temperature in evaporative cooling and simulation methods for long-range interactions are obtained, using positive-P phase-space techniques.

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