Nonlinear multistate tunneling dynamics in a spinor Bose-Einstein condensate

Z. N. Hardesty-Shaw, Q. Guan, J. O. Austin-Harris, D. Blume, R. J. Lewis-Swan, Y. Liu
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引用次数: 1

Abstract

We present an experimental realization of dynamic self-trapping and nonexponential tunneling in a multistate system consisting of ultracold sodium spinor gases confined in moving optical lattices. Taking advantage of the fact that the tunneling process between different momentum states in the sodium spinor system is resolvable over a broader dynamic energy scale than previously observed in rubidium scalar gases, we demonstrate that the tunneling dynamics in the multistate system strongly depends on an interaction induced nonlinearity and is influenced by the spin degree of freedom under certain conditions. We develop a rigorous multistate tunneling model to describe the observed dynamics. Combined with our recent observation of spatially manipulated spin dynamics, these results open up prospects for alternative multistate ramps and state transfer protocols.
旋量玻色-爱因斯坦凝聚体中的非线性多态隧道动力学
我们提出了一种在运动光学晶格中由超冷钠自旋气体组成的多态系统中动态自俘获和非指数隧穿的实验实现。利用钠自旋系统中不同动量态之间的隧穿过程在比以前在铷标量气体中观察到的更宽的动态能量尺度上可分辨的事实,我们证明了多态系统中的隧穿动力学强烈依赖于相互作用诱导的非线性,并在一定条件下受自旋自由度的影响。我们建立了一个严格的多状态隧道模型来描述观察到的动力学。结合我们最近对空间操纵自旋动力学的观察,这些结果为替代多态坡道和状态转移协议开辟了前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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