Broadband Achromatic Metalenses

Yu Han Chen, Pin Chieh Wu, Shuming Wang, Ren Jie Lin, Jia Wern Chen, Yi Chieh Lai, Cheng Hung Chu, Bo Han Chen, Zhenlin Wang, Tao Li, Shining Zhu, Din Ping Tsai

研究成果: Conference contribution

摘要

In contrast to the traditional bulk optical elements, metasurfaces provide a new perspective on flexibly shaping the electromagnetic field by manipulating its phase, amplitude as well as polarization at will via a compact and easy-of-fabrication system. However, due to the high phase dispersion of their building blocks, metasurfaces significantly suffer from large chromatic aberration. Such chromatic aberration significantly degrades the performance of full-color optical applications, such as in communication, detection, imaging, displaying etc. Here we propose a design principle to realize achromatic metasurface devices which successfully eliminate the chromatic aberration over a continuous wavelength regions from 400 to 660 nm and 1200 to 1680 nm in a transmission and reflection scheme, respectively, for circularly-polarized incidences. For this proof-of-concept, we demonstrate broadband achromatic metalenses which are capable of focusing light with arbitrary wavelength at the same focal plane. A broadband achromatic gradient metasurface is also implemented, which is able to deflect wide-band light by the same angle. Through this approach, various flat achromatic devices that were previously impossible can be realized, which will allow innovation in full-color detection and imaging.

原文English
主出版物標題2018 Conference on Lasers and Electro-Optics, CLEO 2018 - Proceedings
發行者Institute of Electrical and Electronics Engineers Inc.
ISBN(列印)9781943580422
出版狀態Published - 2018 8月 6
事件2018 Conference on Lasers and Electro-Optics, CLEO 2018 - San Jose, United States
持續時間: 2018 5月 132018 5月 18

出版系列

名字2018 Conference on Lasers and Electro-Optics, CLEO 2018 - Proceedings

Conference

Conference2018 Conference on Lasers and Electro-Optics, CLEO 2018
國家/地區United States
城市San Jose
期間18-05-1318-05-18

All Science Journal Classification (ASJC) codes

  • 儀器
  • 原子與分子物理與光學

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