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Paper detail

Quantum Joule-Thomson Effect in a Saturated Homogeneous Bose Gas

We study the thermodynamics of Bose-Einstein condensation in a weakly interacting quasi-homogeneous atomic gas, prepared in an optical-box trap. We characterise the critical point for condensation and observe saturation of the thermal component in a partially condensed cloud, in agreement with Einstein's textbook picture of a purely statistical phase transition. Finally, we observe the quantum Joule-Thomson effect, namely isoenthalpic cooling of an (essentially) ideal gas. In our experiments this cooling occurs spontaneously, due to energy-independent collisions with the background gas in the vacuum chamber. We extract a Joule-Thomson coefficient $μ_{\rm JT} > 10^9$ K/bar, about ten orders of magnitude larger than observed in classical gases.

preprint2014arXivOpen access
Tobias F. SchmidutzIgor GotlibovychAlexander L. GauntRobert P. SmithNir NavonZoran Hadzibabic
physics.atom-phcond-mat.stat-mechcond-mat.quant-gasquant-ph
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Tobias F. SchmidutzIgor GotlibovychAlexander L. GauntRobert P. SmithNir NavonZoran Hadzibabic

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