Multimode N00N states in driven atomtronic circuits

arXiv: Quantum Gases Pub Date : 2020-10-22 DOI:10.1103/physrevresearch.2.043118
E. Compagno, Guillaume Quesnel, A. Minguzzi, L. Amico, D. Feinberg
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引用次数: 3

Abstract

We propose a method to generate multi-mode N00N states with arrays of ultracold atoms. Our protocol requires a strong relative offset among the wells and a drive of the interparticle interaction at a frequency resonant with the offsets. The proposal is demonstrated by a numerical and a Floquet analysis of the quantum dynamics of a ring-shaped atomtronics circuit made of M weakly coupled optical traps. We generate a hierarchy of energy scales down to very few low-energy states where N00N dynamics takes place, making multi-mode N00N states appear at nearly regular time intervals. The production of multi-mode N00N states can be probed by time-of-flight imaging. Such states may be used to build a multiple beam splitter.
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驱动原子电路中的多模N00N态
我们提出了一种用超冷原子阵列产生多模N00N态的方法。我们的方案要求井间有很强的相对偏移,并在与偏移共振的频率上驱动粒子间相互作用。通过对一个由M个弱耦合光阱组成的环形原子电路的量子动力学的数值分析和Floquet分析证明了这一建议。我们生成了一个能量层次结构,直到极少数低能态发生N00N动力学,使多模N00N态几乎以规则的时间间隔出现。多模N00N态的产生可以通过飞行时间成像来探测。这种状态可以用来建立一个多分束器。
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arXiv: Quantum Gases
arXiv: Quantum Gases
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