Cold-atom quantum simulators of gauge theories

IF 17.6 1区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY

Nature Physics Pub Date : 2025-01-15 DOI:10.1038/s41567-024-02721-8

Jad C. Halimeh, Monika Aidelsburger, Fabian Grusdt, Philipp Hauke, Bing Yang

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Abstract

Gauge theories constitute the basis of the Standard Model and provide useful descriptions of various phenomena in condensed matter. Realizing gauge theories on tunable tabletop quantum devices such as cold-atom quantum simulators offers the possibility to study their dynamics from first principles and to probe effects that are out of reach of dedicated particle colliders, such as deviations from gauge invariance. These quantum simulators can potentially provide insights into high-energy and nuclear physics questions, while also serving as a versatile tool for the exploration of topological phases and ergodicity-breaking mechanisms relevant to low-energy many-body physics. Recent years have seen substantial progress in the implementation of (1 + 1)D Abelian gauge theories using ultracold atoms. In this Review, we chronicle these advances, highlighting key developments in stabilizing gauge invariance and scaling up from basic building blocks to large-scale realizations where gauge-theory phenomena can be probed. We offer an outlook on future directions and the requirements for advancing this technology to the next level. Large-scale quantum simulations of gauge theories are relevant to high-energy and condensed matter physics. This Review covers recent developments in simulating lattice gauge theories using cold atoms.

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规范理论的冷原子量子模拟器

规范理论构成了标准模型的基础，并对凝聚态物质中的各种现象提供了有用的描述。在可调桌面量子设备（如冷原子量子模拟器）上实现规范理论，提供了从第一原理研究其动力学的可能性，并探测专用粒子对撞机无法达到的效应，例如偏离规范不变性。这些量子模拟器可以为高能和核物理问题提供潜在的见解，同时也可以作为探索与低能多体物理相关的拓扑相和遍历经破机制的多功能工具。近年来，在使用超冷原子实现（1 + 1）D阿贝尔规范理论方面取得了实质性进展。在这篇综述中，我们记录了这些进展，强调了稳定规范不变性和从基本构建块到可以探索规范理论现象的大规模实现的关键发展。我们展望了未来的发展方向和将这项技术提升到一个新的水平的要求。

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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来源期刊

Nature Physics 物理-物理：综合

CiteScore

30.40

自引率

2.00%

发文量

349

审稿时长

4-8 weeks

期刊介绍： Nature Physics is dedicated to publishing top-tier original research in physics with a fair and rigorous review process. It provides high visibility and access to a broad readership, maintaining high standards in copy editing and production, ensuring rapid publication, and maintaining independence from academic societies and other vested interests. The journal presents two main research paper formats: Letters and Articles. Alongside primary research, Nature Physics serves as a central source for valuable information within the physics community through Review Articles, News & Views, Research Highlights covering crucial developments across the physics literature, Commentaries, Book Reviews, and Correspondence.