Polarization Encoded Color Image Embedded in a Dielectric Metasurface

Overview

Journal Adv Mater

Date 2018 Apr 1

PMID 29603423

Citations 28

Authors

Xiaofei Zang

Fengliang Dong

Fuyong Yue

Chunmei Zhang

LiHua Xu

Zhiwei Song

Ming Chen

Pai-Yen Chen

Gerald S Buller

Yiming Zhu

Songlin Zhuang

Weiguo Chu

Shuang Zhang

Xianzhong Chen

Affiliations

Soon will be listed here.

Abstract

Optical metasurfaces have shown unprecedented capabilities in the local manipulation of the light's phase, intensity, and polarization profiles, and represent a new viable technology for applications such as high-density optical storage, holography and display. Here, a novel metasurface platform is demonstrated for simultaneously encoding color and intensity information into the wavelength-dependent polarization profile of a light beam. Unlike typical metasurface devices in which images are encoded by phase or amplitude modulation, the color image here is multiplexed into several sets of polarization profiles, each corresponding to a distinct color, which further allows polarization modulation-induced additive color mixing. This unique approach features the combination of wavelength selectivity and arbitrary polarization control down to a single subwavelength pixel level. The encoding approach for polarization and color may open a new avenue for novel, effective color display elements with fine control over both brightness and contrast, and may have significant impact for high-density data storage, information security, and anticounterfeiting.

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