kagome晶格上里德堡原子的量子相

Quantum phases of Rydberg atoms on a kagome lattice.

作者信息

Samajdar Rhine, Ho Wen Wei, Pichler Hannes, Lukin Mikhail D, Sachdev Subir

机构信息

Department of Physics, Harvard University, Cambridge, MA 02138;

Department of Physics, Harvard University, Cambridge, MA 02138.

出版信息

Proc Natl Acad Sci U S A. 2021 Jan 26;118(4). doi: 10.1073/pnas.2015785118.

DOI:10.1073/pnas.2015785118

PMID:33468679

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7848540/

Abstract

We analyze the zero-temperature phases of an array of neutral atoms on the kagome lattice, interacting via laser excitation to atomic Rydberg states. Density-matrix renormalization group calculations reveal the presence of a wide variety of complex solid phases with broken lattice symmetries. In addition, we identify a regime with dense Rydberg excitations that has a large entanglement entropy and no local order parameter associated with lattice symmetries. From a mapping to the triangular lattice quantum dimer model, and theories of quantum phase transitions out of the proximate solid phases, we argue that this regime could contain one or more phases with topological order. Our results provide the foundation for theoretical and experimental explorations of crystalline and liquid states using programmable quantum simulators based on Rydberg atom arrays.

摘要

我们分析了通过激光激发到原子里德堡态相互作用的 kagome 晶格上中性原子阵列的零温相。密度矩阵重整化群计算揭示了存在多种具有破缺晶格对称性的复杂固相。此外，我们确定了一个具有密集里德堡激发的区域，该区域具有大的纠缠熵且没有与晶格对称性相关的局部序参量。通过与三角晶格量子二聚体模型的映射以及从相邻固相出发的量子相变理论，我们认为这个区域可能包含一个或多个具有拓扑序的相。我们的结果为基于里德堡原子阵列的可编程量子模拟器对晶体和液态进行理论和实验探索奠定了基础。

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