Superfluidity in sympathetic cooling with atomic Bose condensates
Abstract
The dynamical structure of an atomic Bose-Einstein condensate limits the efficiency of the condensate in cooling slow impurity atoms. To illustrate the point, we show that an impurity atom moving in a homogeneous zero-temperature condensate is not scattered incoherently if its velocity is lower than the condensate sound velocity c, limiting cooling to velocities v ≥ c. This striking effect is an expression of superfluidity and provides a direct means to detect the fundamental property of superfluidity in atomic condensates. Furthermore, we show that the fermionic lithium-isotope, 6Li, is a reasonable candidate for sympathetic cooling by a 23Na-condensate.
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