Plasmonic Manipulation and Applications in Nanostructures/Nanomaterials

2018 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO) Pub Date : 2018-08-01 DOI:10.1109/3M-NANO.2018.8552186

Hua Lu, R. Wang, Zengqi Yue, Jianlin Zhao

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Abstract

Nanostructures and nanomaterials provide promising building blocks for plasmonic manipulation and applications. To significantly combine the nanostructures with nanomaterials, we have investigated the mid-infrared (MIR) plasmonic response mimicking electromagnetically induced transparency (EIT) in a graphene nanowaveguide system, consisting of the graphene sheets coupling with double graphene ribbons parallel to each other. The results demonstrate that the EIT-like spectral profile and position are strongly dependent on the graphene ribbon width. The resonant spectral width can be effectively controlled by adjusting the coupling strength (gap distance) between the graphene ribbons. Especially, the active tunability of spectral profile can be realized by altering the chemical potential ( or Fermi level) of graphene ribbon. The finite element method (FEM) numerical simulations agree well with the results theoretically calculated by the coupled mode theory (CMT). Our results will offer a new pathway toward the realization of graphene-based active plasmonic controlling and devices.

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等离子体操纵及其在纳米结构/纳米材料中的应用

纳米结构和纳米材料为等离子体操纵和应用提供了有前途的基石。为了有效地将纳米结构与纳米材料结合起来，我们在石墨烯纳米波导系统中研究了模拟电磁感应透明(EIT)的中红外(MIR)等离子体响应，该系统由石墨烯片耦合双平行石墨烯带组成。结果表明，类eit的光谱轮廓和位置强烈依赖于石墨烯带的宽度。通过调节石墨烯带之间的耦合强度(间隙距离)，可以有效地控制谐振谱宽。特别是，可以通过改变石墨烯带的化学势(或费米能级)来实现光谱的主动可调性。有限元数值模拟结果与耦合模理论计算结果吻合较好。我们的研究结果将为实现基于石墨烯的主动等离子体控制和器件提供新的途径。

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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2018 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO)

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