The atomic Bose gas in Flatland

Baptiste Battelier (LKB - Lhomond); Jean B. Dalibard (LKB - Lhomond); Marc Cheneau (LKB - Lhomond); Peter Kr\"uger (LKB - Lhomond); Zoran Hadzibabic (LKB - Lhomond)

arxiv: cond-mat/0609761 · v1 · pith:F62MFGYVnew · submitted 2006-09-29 · ❄️ cond-mat.other · physics.atom-ph

The atomic Bose gas in Flatland

Zoran Hadzibabic (LKB - Lhomond) , Peter Kr\"uger (LKB - Lhomond) , Marc Cheneau (LKB - Lhomond) , Baptiste Battelier (LKB - Lhomond) , Jean B. Dalibard (LKB - Lhomond) This is my paper

classification ❄️ cond-mat.other physics.atom-ph

keywords coherencesystemtemperatureagreementaimingatomicatomsberezinskii--kosterlitz--thouless

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We describe a recent experiment performed with rubidium atoms ($^{87}$Rb), aiming at studying the coherence properties of a two-dimensional gas of bosonic particles at low temperature. We have observed in particular a Berezinskii--Kosterlitz--Thouless (BKT) type crossover in the system, using a matter wave heterodyning technique. At low temperatures, the gas is quasi-coherent on the length scale set by the system size. As the temperature is increased, the loss of long-range coherence coincides with the onset of the proliferation of free vortices, in agreement with the microscopic BKT theory.

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The atomic Bose gas in Flatland

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