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Entanglement corner dependence in two-dimensional systems: A tensor network perspective

Entanglement corner dependence in two-dimensional systems: A tensor network perspective

来源:Arxiv_logoArxiv
英文摘要

In continuous quantum field theories, the entanglement entropy of a subsystem with sharp corners in its boundary exhibits a universal corner-dependent contribution. We study this contribution via the lens of discretized systems, and demonstrate that this corner dependence emerges naturally from the geometric structure of infinite projected entangled pair states (iPEPS) on discrete lattices. Using a rigorous counting argument, we show that the bond dimension of an iPEPS representation exhibits a corner-dependent term that matches the predicted term in gapped continuous systems. Crucially, we find that this correspondence only emerges when averaging over all possible lattice orientations, revealing a fundamental requirement for properly discretizing continuous systems. Our results provide a geometric understanding of entanglement corner laws and establish a direct connection between analytical field theory predictions and the structure of tensor network representations. We extend our analysis to gauge-invariant systems, where lattice corners crossed by the bipartition boundary contribute an additional corner-dependent term. These findings offer new insights into the relationship between entanglement in continuous and discrete quantum systems.

Noa Feldman、Moshe Goldstein

物理学信息科学、信息技术

Noa Feldman,Moshe Goldstein.Entanglement corner dependence in two-dimensional systems: A tensor network perspective[EB/OL].(2025-07-23)[2025-08-23].https://arxiv.org/abs/2502.15467.点此复制

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