通过与平带耦合手性边缘模式的拓扑慢光

Letian Yu, Haoran Xue, Baile Zhang
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引用次数: 16

摘要

光子拓扑绝缘体中的手性边缘模式具有实现具有拓扑保护的慢光波导的巨大潜力。增加布里渊带周围的手性边缘模式的缠绕可以产生超低群速度的宽带拓扑慢光。然而,这种效果通常需要在晶格边缘周围相对较大的区域上进行仔细的修改。本文提出了一种简单而通用的方案,通过将手性边缘模式与平带耦合来实现宽带拓扑慢光。在这种方法中,不需要对拓扑晶格内部进行修改。相反,只需要在晶格边缘附加几个支持平坦带的额外谐振器。我们用一个陀螺磁光子晶体在数值上证明了我们的想法,该晶体已经准备好在微波频率下进行测试。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Topological slow light via coupling chiral edge modes with flatbands
Chiral edge modes in photonic topological insulators host great potential to realize slow-light waveguides with topological protection. Increasing the winding of the chiral edge mode around the Brillouin zone can lead to broadband topological slow light with ultra-low group velocity. However, this effect usually requires careful modifications on a relatively large area around the lattice edge. Here we present a simple and general scheme to achieve broadband topological slow light through coupling the chiral edge modes with flat bands. In this approach, modifications inside the topological lattice are not required. Instead, only several additional resonators that support the flat bands need to be attached at the lattice edge. We demonstrate our idea numerically using a gyromagnetic photonic crystal, which is ready to be tested at microwave frequencies.
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