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Quantum tunneling time of a Bose-Einstein condensate traversing through a laser-induced potential barrier

We theoretically study the effect of atomic nonlinearity on the tunneling time in the case of an atomic Bose-Einstein condensate (BEC) traversing the laser-induced potential barrier. The atomic nonlinearity is controlled to appear only in the region of the barrier by employing the Feshbach resonance technique to tune interatomic interaction in the tunneling process. Numerical simulation shows that the atomic nonlinear effect dramatically changes the tunneling behavior of the BEC matter wave packet, and results in the violation of Hartman effect and the occurrence of negative tunneling time.

preprint2010arXivOpen access
Zhenglu DuanBixuan FanChun-Hua YuanJing ChengShiyao ZhuWeiping Zhang
cond-mat.quant-gasquant-ph
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Zhenglu DuanBixuan FanChun-Hua YuanJing ChengShiyao ZhuWeiping Zhang

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