Control of non-Hermitian skin effect by staggered synthetic gauge fields

IF 5.4 1区 物理与天体物理 Q1 OPTICS
APL Photonics Pub Date : 2024-05-07 DOI:10.1063/5.0196844
Huiyan Tang, Ziteng Wang, Liqin Tang, Daohong Song, Zhigang Chen, Hrvoje Buljan
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引用次数: 0

Abstract

Synthetic gauge fields introduce an unconventional degree of freedom for studying many fundamental phenomena in different branches of physics. Here, we propose a scheme to use staggered synthetic gauge fields for control of the non-Hermitian skin effect (NHSE). A modified Su–Schrieffer–Heeger model is employed, where two dimer chains with non-reciprocal coupling phases are coupled, exhibiting non-trivial point-gap topology and the NHSE. In contrast to previous studies, the skin modes in our model are solely determined by the coupling phase terms associated with the staggered synthetic gauge fields. By manipulating such gauge fields, we can achieve maneuvering of skin modes as well as the bipolar NHSE. As a typical example, we set up a domain wall by imposing different synthetic gauge fields on two sides of the wall, thereby demonstrating flexible control of the non-Hermitian skin modes at the domain wall. Our scheme opens a new avenue for the creation and manipulation of NHSE by synthetic gauge fields, which may find applications in beam shaping and non-Hermitian topological devices.
用交错合成规规场控制非赫米提皮肤效应
合成规规场为研究不同物理学分支的许多基本现象引入了一种非常规的自由度。在这里,我们提出了一种使用交错合成规规场来控制非赫米提趋肤效应(NHSE)的方案。我们采用了一个改进的苏-施里弗-希格模型,其中两个具有非对等耦合相的二聚体链被耦合在一起,表现出非对称的点隙拓扑和 NHSE。与以往的研究不同,我们模型中的集肤模式完全由与交错合成规规场相关的耦合相项决定。通过操纵这种规规场,我们可以实现集肤模式和双极 NHSE 的操纵。作为一个典型的例子,我们在畴壁的两侧施加了不同的合成规规场,从而建立了一个畴壁,展示了在畴壁上对非赫米态肤模的灵活控制。我们的方案为通过合成规规场创建和操纵 NHSE 开辟了一条新途径,可应用于光束整形和非赫米提拓扑器件。
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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来源期刊
APL Photonics
APL Photonics Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
10.30
自引率
3.60%
发文量
107
审稿时长
19 weeks
期刊介绍: APL Photonics is the new dedicated home for open access multidisciplinary research from and for the photonics community. The journal publishes fundamental and applied results that significantly advance the knowledge in photonics across physics, chemistry, biology and materials science.
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