磁光隔离和等离子体结构奇异点的拓扑边缘态

G. Veronis, Yin Huang, Yuecheng Shen, Vahid Foroughi Nezhad, Chenglong You
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引用次数: 0

摘要

我们介绍了一种纳米等离子体隔离器,由一个腔耦合到一个金属-介电-金属(MDM)波导组成。波导和腔体由磁光材料填充,结构处于静态磁场下。我们发现,当MO活动存在时,腔变成了一个行波谐振器,在正向和反向方向上具有不等的衰减速率。因此,该结构起着隔离作用。我们还介绍了具有奇异点拓扑边缘态(TESs)的非厄米等离子体波导腔系统。该结构单元由MDM波导侧耦合到MDM短根谐振器组成,相邻短根之间具有调制距离。在这种结构中,调制的距离引入了有效的规范磁场。我们证明了这种结构对反射光强度具有极高的灵敏度。奇点处的TESs可以导致性能增强的基于奇点的等离子体器件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Magneto-optical isolation and topological edge states at singular points in plasmonic structures
We introduce a nanoplasmonic isolator consisting of a cavity coupled to a metal-dielectric-metal (MDM) waveguide. The waveguide and cavity are filled with a magneto-optical (MO) material, and the structure is under a static magnetic field. We show that, when MO activity is present, the cavity becomes a traveling wave resonator with unequal decay rates into the forward and backward directions. As a result, the structure operates as an isolator. We also introduce non-Hermitian plasmonic waveguide-cavity systems with topological edge states (TESs) at singular points. The structure unit cells consist of an MDM waveguide side-coupled to MDM stub resonators with modulated distances between adjacent stubs. In such structures the modulated distances introduce an effective gauge magnetic field. We show that such structures achieve extremely high sensitivity of the reflected light intensity. TESs at singular points could lead to singularity-based plasmonic devices with enhanced performance.
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