由单晶硅超原子制成的用于可见波长的旋转变焦莫尔超表面透镜。

Rotational varifocal moiré metalens made of single-crystal silicon meta-atoms for visible wavelengths.

作者信息

Ogawa Chikara, Nakamura Sotaro, Aso Takumi, Ikezawa Satoshi, Iwami Kentaro

机构信息

Department of Industrial Technology and Innovation, Tokyo University of Agriculture and Technology, Koganei, Tokyo 184-8588, Japan.

Department of Mechanical System Engineering, Tokyo University of Agriculture and Technology, Koganei, Tokyo 184-8588, Japan.

出版信息

Nanophotonics. 2022 Jan 14;11(9):1941-1948. doi: 10.1515/nanoph-2021-0690. eCollection 2022 Apr.

DOI:10.1515/nanoph-2021-0690

PMID:39633952

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11501419/

Abstract

Metasurface lenses (metalenses) offer an ultrathin and simple optical system with dynamic functions that include focal length tuning. In this study, a rotational varifocal (i.e., moiré) metalens based on octagonal single-crystal silicon pillars was designed and fabricated to realize a high transmittance, whole 2 phase coverage, and polarization insensitivity for visible wavelengths. The moiré metalens consists of a pair of cascaded metasurface-based phase lattices and the focal length can be adjusted from negative to positive by mutual rotation. The fabricated moiré metalens demonstrated a focal length that can be tuned from -36 mm to -2 mm and from 2 to 12 mm by mutual rotation from -90° to 90°, and the experimental measurements agreed well with theoretical values at the design wavelength of 633 nm. Imaging was demonstrated at three distinct wavelengths of 633, 532, and 440 nm.

摘要

超表面透镜（金属透镜）提供了一种具有动态功能的超薄且简单的光学系统，其动态功能包括焦距调谐。在本研究中，设计并制造了一种基于八角形单晶硅柱的旋转变焦（即莫尔）金属透镜，以实现对可见波长的高透射率、全2π相位覆盖和偏振不敏感性。莫尔金属透镜由一对级联的基于超表面的相位晶格组成，通过相互旋转，焦距可在正负之间调节。所制造的莫尔金属透镜通过从-90°到90°的相互旋转，展示了焦距可从-36毫米调谐到-2毫米以及从2毫米调谐到12毫米，并且在633纳米的设计波长下，实验测量结果与理论值吻合良好。在633、532和440纳米这三个不同波长下展示了成像效果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0efd/11501419/4835aee86ad3/j_nanoph-2021-0690_fig_001.jpg

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由单晶硅超原子制成的用于可见波长的旋转变焦莫尔超表面透镜。

Rotational varifocal moiré metalens made of single-crystal silicon meta-atoms for visible wavelengths.

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