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首页> 外文期刊>International Journal of Modern Physics, B. Condensed Matter Physics, Statistical Physics, Applied Physics >DIRAC POINTS, TOPOLOGICAL EDGE MODES AND NONRECIPROCAL TRANSMISSION IN ONE-DIMENSIONAL METAMATERIAL-BASED COUPLED-CAVITY ARRAYS
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DIRAC POINTS, TOPOLOGICAL EDGE MODES AND NONRECIPROCAL TRANSMISSION IN ONE-DIMENSIONAL METAMATERIAL-BASED COUPLED-CAVITY ARRAYS

机译:一维基于金属的耦合腔阵列中的Dirac点,拓扑边缘模式和非正交传输

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摘要

We show that topological frequency band structures emerge in one-dimensional (1D) electromagnetic (EM) lattices of metamaterial components without the application of an external magnetic field. Such lattices can be cavity arrays coupled with metamaterial elements which generate alternate positive and negative-phase hopping strengths. The topological nature of the band structure manifests itself by the occurrence of Dirac points in the band structure, by the emergence of edge modes in finite arrays as well as by a nonreciprocal scattering spectrum. Specific EM designs for demonstrating the above phenomena are discussed.
机译:我们显示拓扑频带结构出现在超材料组件的一维(1D)电磁(EM)晶格中,而无需施加外部磁场。这样的格子可以是与超材料元素耦合的腔阵列,超材料元素产生交替的正相和负相跳跃强度。能带结构的拓扑性质通过能带结构中狄拉克点的出现,有限阵列中边缘模式的出现以及不可逆的散射光谱来体现。讨论了用于证明上述现象的特定EM设计。

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