具有缓慢变化准周期紊乱的非ermitian模型中的流动边缘

arXiv - PHYS - Disordered Systems and Neural Networks Pub Date : 2024-02-27 DOI:arxiv-2402.17266

Qiyun Tang, Yan He

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引用次数: 0

摘要

我们研究了具有交替跳变常数和慢变的准周期现场势的一维非赫米提紧带模型中流动边缘的出现。由于慢变指数的存在，该模型的奇偶性-时间（PT）对称性被打破，其频谱也变得复杂。研究发现，根据准周期电势的大小，该模型的频谱可分为三种不同的模式。当电势的振幅由小到大时，最初清晰的迁移率边缘逐渐变得模糊，当电势足够大时，迁移率边缘最终消失。对这种非赫米提模型复谱的卷绕数的详细研究也证实了流动边缘的这种行为。

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Mobility edges in non-Hermitian models with slowly varying quasi-periodic disorders

We investigate the appearance of mobility edges in a one-dimensional non-Hermitian tight-banding model with alternating hopping constants and slowly varying quasi-periodic on-site potentials. Due to the presence of slowly varying exponent, the parity-time (PT) symmetry of this model is broken and its spectra is complex. It is found that the spectrum of this model can be divided into three different types of patterns depending on the magnitude of the quasi-periodic potential. As the amplitude of the potential increases from small to large, the initially well defined mobility edges become blurred gradually and then eventually disappear for large enough potential. This behavior of the mobility edges is also confirmed by a detailed study of the winding number of the complex spectra of this non-Hermitian model.

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arXiv - PHYS - Disordered Systems and Neural Networks

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