Cooling a strongly-interacting quantum gas by interaction modulation
Abstract
We present a cooling method for a strongly-interacting trapped quantum gas. By applying a magnetic field modulation with frequencies close to the binding energy of a molecular bound state we selectively remove dimers with high kinetic energy from the sample. We demonstrate cooling of the sample over a wide range of interaction strengths and measure a high cooling efficiency of γ=4 that exceeds all previous cooling near Feshbach resonances.
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