Exact anomalous mobility edges in one-dimensional non-Hermitian quasicrystals

arXiv - PHYS - Disordered Systems and Neural Networks Pub Date : 2024-09-05 DOI:arxiv-2409.03591

Xiang-Ping Jiang, Weilei Zeng, Yayun Hu, Lei Pan

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Abstract

Recent research has made significant progress in understanding localization transitions and mobility edges (MEs) that separate extended and localized states in non-Hermitian (NH) quasicrystals. Here we focus on studying critical states and anomalous MEs, which identify the boundaries between critical and localized states within two distinct NH quasiperiodic models. Specifically, the first model is a quasiperiodic mosaic lattice with both nonreciprocal hopping term and on-site potential. In contrast, the second model features an unbounded quasiperiodic on-site potential and nonreciprocal hopping. Using Avila's global theory, we analytically derive the Lyapunov exponent and exact anomalous MEs. To confirm the emergence of the robust critical states in both models, we conduct a numerical multifractal analysis of the wave functions and spectrum analysis of level spacing. Furthermore, we investigate the transition between real and complex spectra and the topological origins of the anomalous MEs. Our results may shed light on exploring the critical states and anomalous MEs in NH quasiperiodic systems.

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一维非赫米提准晶体中的精确反常迁移率边缘

最近的研究在理解非ermitian（NH）准晶体中分离扩展态和局部态的局部化转变和迁移率边缘（MEs）方面取得了重大进展。在这里，我们重点研究临界状态和反常移动边（ME），它们确定了两个不同的 NH 准周期模型中临界状态和局部状态之间的边界。具体来说，第一个模型是一个具有非互惠跳动项和现场势的准周期镶嵌晶格。与此相反，第二种模型具有无约束的准周期现场电势和非互惠跳变。为了证实这两个模型都出现了稳健临界态，我们对波函数进行了数值多分形分析，并对级距进行了谱分析。此外，我们还研究了真实光谱和复数光谱之间的过渡以及异常 ME 的拓扑起源。我们的研究结果可能有助于探索 NH 夸周期系统中的临界状态和反常 ME。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Disordered Systems and Neural Networks

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