Related papers: Reentrant Localized Bulk and Localized-Extended Edge in Quasiperiodic Non-Hermitian Systems

Reentrant Localized Bulk and Localized-Extended Edge in Quasiperiodic Non-Hermitian Systems

URL: http://arxiv.org/abs/2207.00179v1
Date: Fri, 1 Jul 2022 02:49:23 GMT
Title: Reentrant Localized Bulk and Localized-Extended Edge in Quasiperiodic Non-Hermitian Systems
Authors: Gang-Feng Guo, Xi-Xi Bao, Lei Tan
Abstract summary: The localization is one of the active and fundamental research in topology physics. We propose a novel systematic method to analyze the localization behaviors for the bulk and the edge, respectively.
Score: 1.4638370614615002
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The localization is one of the active and fundamental research in topology physics. Based on a generalized Su-Schrieffer-Heeger model with the quasiperiodic non-Hermitian emerging at the off-diagonal location, we propose a novel systematic method to analyze the localization behaviors for the bulk and the edge, respectively. For the bulk, it can be found that it undergoes an extended-coexisting-localized-coexisting-localized transition induced by the quasidisorder and nonHermiticity. While for the edge state, it can be broken and recovered with the increase of the quasidisorder strength, and its localized transition is synchronous exactly with the topological phase transition. In addition, the inverse participation ratio of the edge state oscillates with an increase of the disorder strength. Finally, numerical results elucidate that the derivative of the normalized participation ratio exhibits an enormous discontinuity at the localized transition point. Here, our results not only demonstrate the diversity of localization properties of bulk and edge state, but also may provide an extension of the ordinary method for investigating the localization.

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