量子自旋链中的涌现纠缠结构和自相似性

Boris Sokolov, M. Rossi, Guillermo Garc'ia-P'erez, S. Maniscalco
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引用次数: 5

摘要

我们介绍了一种实验上可访问的多体量子态网络表示,该表示基于其所有组分对之间的纠缠。我们通过将其应用于一个范式自旋链模型,即XX模型来说明这种表示的力量,并表明它带来了新的现象。对这些纠缠网络的分析表明,准远程有序的逐渐建立伴随着单自旋并发分布的对称性,以及网络拓扑的不稳定性。此外,我们确定了紧急纠缠结构的存在,由系统的全局对称性强制的空间局部社区,可以通过模型不可知的社区检测算法揭示。网络表征进一步揭示了结构类的存在和状态中的循环自相似性,我们推测这与社区结构密切相关。我们的研究结果表明,使用复杂网络理论的工具和概念,即使在研究了几十年的模型中,也可以发现、理解和描述新的物理现象。本文是主题“复杂物理和社会技术系统中的涌现现象:从细胞到社会”的一部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Emergent entanglement structures and self-similarity in quantum spin chains
We introduce an experimentally accessible network representation for many-body quantum states based on entanglement between all pairs of its constituents. We illustrate the power of this representation by applying it to a paradigmatic spin chain model, the XX model, and showing that it brings to light new phenomena. The analysis of these entanglement networks reveals that the gradual establishment of quasi-long range order is accompanied by a symmetry regarding single-spin concurrence distributions, as well as by instabilities in the network topology. Moreover, we identify the existence of emergent entanglement structures, spatially localized communities enforced by the global symmetry of the system that can be revealed by model-agnostic community detection algorithms. The network representation further unveils the existence of structural classes and a cyclic self-similarity in the state, which we conjecture to be intimately linked to the community structure. Our results demonstrate that the use of tools and concepts from complex network theory enables the discovery, understanding and description of new physical phenomena even in models studied for decades. This article is part of the theme issue ‘Emergent phenomena in complex physical and socio-technical systems: from cells to societies’.
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