拉曼晶格的密度相关量子场

arXiv - PHYS - Quantum Gases Pub Date : 2024-08-13 DOI:arxiv-2408.06777

Xiang-Can Cheng, Zong-Yao Wang, Jinyi Zhang, Shuai Chen, Xiaotian Nie

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引用次数: 0

摘要

自旋轨道耦合是超冷原子系统中的一个强大工具，它产生的人工量规场可以很容易地在桌面环境中进行操作和观测。自旋轨道耦合是超冷原子体系中的有力工具，它产生的人工规量场可以在可操作的顶层环境中轻松操控和观测。结合光学晶格和原子-原子相互作用，人工规量场可以变得与密度相关。在这项工作中，我们研究了一个具有自旋轨道耦合的一维玻色-哈伯德模型，在这个模型中，低能物理学中自发地出现了一个与密度相关的量规场。首先，我们重点研究了二体量子行走动力学，并对共振隧穿现象进行了解释。然后，我们利用双位古茨维勒解析计算了主题泛场相图。我们发现了两种超流体相和一种莫特绝缘体相。最后，我们讨论了拉曼晶格的实验实现协议。

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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Density-Dependent Gauge Field with Raman Lattices

The study of the gauge field is an everlasting topic in modern physics. Spin-orbit coupling is a powerful tool in ultracold atomic systems, resulting in an artificial gauge field that can be easily manipulated and observed in a tabletop environment. Combining optical lattices and atom-atom interaction, the artificial gauge field can be made density-dependent. In this work, we investigate a one-dimensional Bose-Hubbard model with spin-orbit coupling, where a density-dependent gauge field emerges spontaneously in low-energy physics. First, we focus on the two-body quantum walk dynamics and give an interpretation of the phenomena with resonant tunneling. Then, we calculate the mean-field phase diagram using the two-site Gutzwiller ansatz. Two types of superfluid phase and a Mott insulator phase are found. Finally, we discuss the experimental realization protocol with Raman lattices.

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arXiv - PHYS - Quantum Gases

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