Issue 7, 2023

A highly efficient broadband multi-functional metaplate

Abstract

Due to the considerable potential of ultra-compact and highly integrated meta-optics, multi-functional metasurfaces have attracted great attention. The mergence of nanoimprinting and holography is one of the fascinating study areas for image display and information masking in meta-devices. However, existing methods rely on layering and enclosing, where many resonators combine various functions effectively at the expense of efficiency, design complication, and complex fabrication. To overcome these limitations, a novel technique for a tri-operational metasurface has been suggested by merging PB phase-based helicity-multiplexing and Malus's law of intensity modulation. To the best of our knowledge, this technique resolves the extreme-mapping issue in a single-sized scheme without increasing the complexity of the nanostructures. For proof of concept, a multi-functional metasurface built of single-sized zinc sulfide (ZnS) nanobricks is developed to demonstrate the viability of simultaneous control of near and far-field operations. The proposed metasurface successfully verifies the implementation of a multi-functional design strategy with conventional single-resonator geometry by reproducing two high-fidelity images in the far field and projecting one nanoimprinting image in the near field. This makes the proposed information multiplexing technique a potential candidate for many high-end and multi-fold optical storage, information-switching, and anti-counterfeiting applications.

Graphical abstract: A highly efficient broadband multi-functional metaplate

Supplementary files

Article information

Article type
Paper
Submitted
29 Dec 2022
Accepted
15 Feb 2023
First published
08 Mar 2023
This article is Open Access
Creative Commons BY-NC license

Nanoscale Adv., 2023,5, 2010-2016

A highly efficient broadband multi-functional metaplate

A. J. Satti, M. A. Naveed, I. Javed, N. Mahmood, M. Zubair, M. Q. Mehmood and Y. Massoud, Nanoscale Adv., 2023, 5, 2010 DOI: 10.1039/D2NA00953F

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