Numerical investigations of the extensive entanglement Hamiltonian in quantum spin ladders

Chengshu Li, Xingyu Li, Yi-Neng Zhou
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Abstract

Entanglement constitutes one of the key concepts in quantum mechanics and serves as an indispensable tool in the understanding of quantum many-body systems. In this work, we perform extensive numerical investigations of extensive entanglement properties of coupled quantum spin chains. This setup has proven useful for e.g. extending the Lieb–Schultz–Mattis theorem to open systems, and contrasts the majority of previous research where the entanglement cut has one lower dimension than the system. We focus on the cases where the entanglement Hamiltonian is either gapless or exhibits spontaneous symmetry breaking behavior. We further employ conformal field theoretical formulae to identify the universal behavior in the former case. The results in our work can serve as a paradigmatic starting point for more systematic exploration of the largely uncharted physics of extensive entanglement, both analytical and numerical.

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量子自旋梯中广泛纠缠哈密顿的数值研究
纠缠是量子力学的关键概念之一,也是理解量子多体系统不可或缺的工具。在这项工作中,我们对耦合量子自旋链的广泛纠缠特性进行了广泛的数值研究。事实证明,这种设置对于将李布-舒尔茨-马蒂斯定理扩展到开放系统等方面非常有用,而且与以往大多数研究形成鲜明对比的是,纠缠切分的维度比系统低一个维度。我们重点研究了纠缠哈密顿无间隙或表现出自发对称破缺行为的情况。我们进一步运用共形场论公式来确定前一种情况下的普遍行为。我们的研究成果可以作为一个范例性的起点,为更系统地探索广泛纠缠的未知物理学提供分析和数值支持。
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