Realization of maximum optical intrinsic chirality with bilayer polyatomic metasurfaces

Xi Zhao; Zhancheng Li; Jiaqi Cheng; Wenwei Liu; Shiwang Yu; Yuebian Zhang; Hua Cheng; Jianguo Tian; Shuqi Chen

doi:10.1364/OL.469518

Realization of maximum optical intrinsic chirality with bilayer polyatomic metasurfaces

Opt Lett. 2022 Sep 15;47(18):4814-4817. doi: 10.1364/OL.469518.

Authors

Xi Zhao, Zhancheng Li, Jiaqi Cheng, Wenwei Liu, Shiwang Yu, Yuebian Zhang, Hua Cheng, Jianguo Tian, Shuqi Chen

PMID: 36107097
DOI: 10.1364/OL.469518

Abstract

Optical chirality plays a key role in optical biosensing and spin-selective optical field manipulation. However, the maximum optical intrinsic chirality, which is represented by near-unity circular dichroism (CD), is yet to be achieved in a wide bandwidth range based on nanostructures. Here, we utilize dielectric bilayer polyatomic metasurfaces to realize the maximum optical intrinsic chirality over a wide bandwidth range. The CD efficiency of the two designed metasurfaces with opposite chirality is 99.9% at 1350 nm and over 98% from 1340 nm to 1361 nm. Our work provides a straightforward and powerful method for the realization of maximum optical intrinsic chirality, which has great potential in spin-selective optical wave manipulation.

MeSH terms

Circular Dichroism
Nanostructures*