Related papers: Entanglement signatures of quantum criticality in Floquet non-Hermitian topological systems

Entanglement signatures of quantum criticality in Floquet non-Hermitian topological systems

URL: http://arxiv.org/abs/2601.03002v1
Date: Tue, 06 Jan 2026 13:27:02 GMT
Title: Entanglement signatures of quantum criticality in Floquet non-Hermitian topological systems
Authors: Siyuan Cheng, Rui Xie, Xiaosen Yang, Yuee Xie, Yuanping Chen,
Abstract summary: In one-dimensional single particle systems, periodic driving generates a variety of topological phases and edge modes.<n>In this work, we investigate the topological phase transition of the one-dimensional Floquet Su-Schrieffer-Heeger model using entanglement entropy.
Score: 4.42521572408504
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The entanglement entropy can be an effective diagnostic tool for probing topological phase transitions. In one-dimensional single particle systems, the periodic driving generates a variety of topological phases and edge modes. In this work, we investigate the topological phase transition of the one-dimensional Floquet Su-Schrieffer-Heeger model using entanglement entropy, and construct the phase diagram based on entanglement entropy. The entanglement entropy exhibits pronounced peaks and follows the logarithmic scaling law at the phase transition points, from which we extract the central charge $c=1$. We further investigate the entanglement spectrum to accurately distinguish the different topological phases. In addition, the coupling between zero and $π$ modes leads to characteristic splittings in the entanglement spectrum, signaling their hybridization under periodic driving. These results remain robust in non-Hermitian regimes and in the presence of next-nearest-neighbor hopping, demonstrating the reliability and universality of entanglement entropy as a diagnostic for topological phase transitions.

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