Unidirectional reflectionless propagation in borophene plasmonic metamaterials

Journal of Physics D Pub Date : 2023-10-11 DOI:10.1088/1361-6463/acff03

Xin Li, Ze-tong Li, Ling-Ling Wang, Qi Lin

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Abstract

Abstract We propose a nonreciprocal borophene metamaterial consisting of a longitudinally separated array of double-layer borophene nanoribbons (BNRs) suspended in the air, exhibiting the unidirectional reflectionless properties at exceptional points (EPs) in the near-infrared communication band. Based on the coupled mode theory and the transfer matrix method, the transmission characteristics of light in the proposed structure can be effectively described. The internal loss and radioactive loss factors of the plasmonic system are successfully calculated by employing the theoretical model we proposed. Thus we conduct the analytical description of the unidirectional reflectionless phenomenon between two borophene plasmonic resonators, where the analytical results show excellent consistency with the finite-difference time-domain simulations. Different from the waveguide structure, the proposed structure has better adjustability that the regulation of EPs can be dynamically achieved by manipulating carrier density and the spatial separation between double-layer of BNRs. Our research results possess the possibility for promising application in tunable nanoelectronic devices in the communication band.

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硼罗芬等离子体超材料中的单向无反射传播

摘要:我们提出了一种悬浮在空气中的非互易硼罗芬纳米带(bnr)组成的非互易硼罗芬超材料，该材料在近红外通信波段的异常点(EPs)表现出单向无反射特性。基于耦合模理论和传输矩阵法，可以有效地描述光在该结构中的传输特性。利用所提出的理论模型，成功地计算了等离子体系统的内部损耗和放射性损耗因子。因此，我们对两个硼罗芬等离子体谐振器之间的单向无反射现象进行了解析描述，分析结果与时域有限差分模拟结果有很好的一致性。与波导结构不同的是，该结构具有更好的可调节性，可以通过控制载流子密度和双层bnr之间的空间间隔来动态调节EPs。我们的研究结果在通信波段的可调谐纳米电子器件中具有广阔的应用前景。

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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Journal of Physics D

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