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Dynamic metasurfaces and metadevices empowered by graphene_titanium dioxide molecular structure
May 5, 2022

Dynamic metasurfaces and metadevices empowered by graphene

by Compuscript Ltd

Dynamic metasurfaces and metadevices empowered by graphene
Fig.1 Overview of state-of-the-art selected functionalities of dynamic metasurfaces and metadevices empowered by graphene. Credit: Compuscript Ltd

A new publication in Opto-Electronic Advancesoverviews dynamic metasurfaces and metadevices empowered by graphene.

Metasurfaces, artificial subwavelength structured interfaces, exhibit unprecedented capabilities to manipulate electromagnetic (EM) waves ranging from visible to terahertz and microwave frequencies.

In the past decade, static metasurfaces and metadevices have been researched extensively. Due to the passive nature of building blocks in general made of metals and/or dielectrics, however, their functionalities cannot be actively tuned in situ after fabrication, which seriously impedes their application scenarios such as varifocal lens, dynamic holography, and beam steering in LiDAR. Motivated by those significant requirements, scientists have struggled for years to improve the dynamical tunability of metasurfaces, and introducing active materials or components into the passive metasurfaces has been proposed as the first thought strategy.

To date, various active materials and components such as transparent conducting oxides, phase-change materials, 2D materials (particularly graphene), varactor diodes, elastic materials, and micro-electro-mechanical systems, have been demonstrated theoretically and experimentally to empower the active tunability to metasurfaces and metadevices by applying external thermal, electrical, optical, and mechanical stimulus, giving rise to a new direction, i.e., dynamic (e.g. tunable, reconfigurable, programmable, intelligent, and digital coding) metasurfaces and metadevices.

It should be noted that although previous research provides a major source of inspiration for dynamic metasurfaces and metadevices, each type of active material and component holds a set of unique characteristics, provides encouraging opportunities, and also suffers from different limitations as well as challenges. Several review articles published in recent years have focused on this area to discuss the aforementioned issues. However, a comprehensive review on graphene-based dynamic metasurfaces and metadevices is still absent, which are of equal and even more significance due to the extraordinary properties of graphene.

In this article the authors divide graphene-empowered dynamic metasurfaces and metadevices are divided into two categories, i.e., metasurfaces with building blocks of structured graphene and hybrid metasurfaces integrated with graphene, as shown in Fig. 1. The state-of-the-art developments in dynamic spectrum manipulation, wavefront shaping, polarization control, and frequency conversion are highly elaborated in near/far fields and global/local ways, respectively. Remaining challenges and potential future developments are also outlined and analyzed.

The authors believe that due to the intrinsic advantages of compact footprint, remarkable electrical tunability, broadband and high-speed operation, graphene and graphene-like 2D materials are propelling the EM wave manipulations using metasurfaces to a new height: from static to dynamic, which will certainly revolutionize EM wave manipulations and allow for future commercial applications.


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More information:Chao Zeng et al, Graphene-empowered dynamic metasurfaces and metadevices, Opto-Electronic Advances(2022). DOI: 10.29026/oea.2022.200098 Provided by Compuscript Ltd Citation: Dynamic metasurfaces and metadevices empowered by graphene (2022, May 5) retrieved 5 May 2022 from https://phys.org/news/2022-05-dynamic-metasurfaces-metadevices-empowered-graphene.html This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only. 4 shares

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