迈向高性能等离子体超表面:从正向设计到逆向设计方法

Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XIX Pub Date : 2021-08-01 DOI:10.1117/12.2594174

Chia-Hsiang Lin, Yu Sheng Chen, Jhao-Ting Lin, Yi Cheng, Amir Hassanfiroozi, H. Wu, H. Kuo, R. Sokhoyan, G. K. Shirmanesh, Wen‐Hui Cheng, H. Atwater, P. Wu

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引用次数: 0

摘要

在这次演讲中，我将介绍实现高性能元表面的两种策略。首先，通过将广义kerker条件引入等离子体超表面，获得了在电信波长传输时的50%以上的圆交叉极化转换效率。我们还展示了几个基于所提出的元表面的元设备，它们具有创纪录的操作效率。其次，我将介绍结合无监督聚类的蒙特卡罗树搜索(MCTS)算法用于元曲面的反设计。利用所提出的方法，我们实现了一个光束导向的超表面，它能够以最小的副瓣强度将正常入射的光偏转到目标方向。

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Toward high-performance plasmonic metasurfaces: from forward to inverse design approach

In this talk, I will present two strategies to realize high-performance metasurfaces. Firstly, by introducing the generalized kerker condition to the plasmonic metasurface, we acquired a circular cross-polarization conversion efficiency higher than 50% in transmission at telecom wavelengths. We also demonstrated a couple of meta-devices with record operating efficiency based on the proposed metasurface. Secondly, I will introduce the Monte Carlo tree search (MCTS) algorithm combined with unsupervised clustering for the inverse design of metasurfaces. With the proposed method, we realized a beam steering metasurface, which is capable of deflecting normally incident light into target directions with minimal sidelobes intensity.

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Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XIX

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