大离散时间晶体中的凝聚态物理

Peter Hannaford, Krzysztof Sacha
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引用次数: 0

摘要

我们回顾了超冷原子在振荡原子镜上共振反弹的玻色-爱因斯坦凝聚态(BEC)中产生的离散时间晶体在时间维度上凝聚态现象研究中的应用。这样的反弹 BEC 系统可以极大地打破时间平移对称性,从而产生具有多达约 100 个时间晶格位点的离散时间晶体,并适用于承载广泛的时间凝聚态现象。我们首先考虑时间维度上的单粒子凝聚态现象,包括时间无序导致的安德森局域化、拓扑时间晶体和时间准晶体结构。然后,我们讨论多体时间凝聚态现象,包括时间莫特绝缘体相、多体时间局域化、多体拓扑时间晶体和具有长程奇异相互作用的时间晶体。我们还讨论了二维(或三维)时间晶格的构建,包括在两个(或三个)正交振荡镜之间以及在两个方向为 45∘的振荡镜之间反弹 BEC。后一种配置支持多用途莫比乌斯带几何,可以容纳各种二维时间晶格,包括蜂巢时间晶格和李布方形时间晶格。最后,我们讨论了基于被困在三维光学晶格中的周期性驱动 BEC 的六维时空晶格的构建。
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Condensed matter physics in big discrete time crystals

We review the application of discrete time crystals created in a Bose-Einstein condensate (BEC) of ultracold atoms bouncing resonantly on an oscillating atom mirror to the investigation of condensed matter phenomena in the time dimension. Such a bouncing BEC system can exhibit dramatic breaking of time-translation symmetry, allowing the creation of discrete time crystals having up to about 100 temporal lattice sites and suitable for hosting a broad range of temporal condensed matter phenomena. We first consider single-particle condensed matter phenomena in the time dimension which include Anderson localization due to temporal disorder, topological time crystals, and quasi-crystal structures in time. We then discuss many-body temporal condensed matter phenomena including Mott insulator phases in time, many-body localization in time, many-body topological time crystals and time crystals having long-range exotic interactions. We also discuss the construction of two (or three) dimensional time lattices, involving the bouncing of a BEC between two (or three) orthogonal oscillating mirrors and between two oscillating mirrors oriented at 45. The latter configuration supports a versatile Möbius strip geometry which can host a variety of two-dimensional time lattices including a honeycomb time lattice and a Lieb square time lattice. Finally, we discuss the construction of a six-dimensional time-space lattice based on periodically driven BECs trapped in a three-dimensional optical lattice.

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CiteScore
8.20
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