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Four-Dimensional Wave Transformations By Space-Time Metasurfaces

Four-Dimensional Wave Transformations By Space-Time Metasurfaces
Four-Dimensional Wave Transformations By Space-Time Metasurfaces
Static metasurfaces have shown to be prominent compact structures for reciprocal and frequency-invariant transformation of electromagnetic waves in space. However, incorporating temporal variation to static metasurfaces would result in dynamic apparatuses which are capable of four-dimensional tailoring of both the spatial and temporal characteristics of electromagnetic waves, leading to functionalities that are far beyond the capabilities of conventional static metasurfaces. This includes nonreciprocal full-duplex wave transmission, pure frequency conversion, parametric wave amplification, spatiotemporal decomposition, and space-time wave diffraction. This paper reviews recent progress and opportunities offered by space-time metasurfaces to break reciprocity, revealing their potential for low-energy, compact, integrated non-reciprocal devices and sub-systems, and discusses the future of this exciting research front.
physics.app-ph, physics.class-ph, physics.optics
Taravati, Sajjad
0026f25d-c919-4273-b956-8fe9795b31ce
Eleftheriades, George V.
280bbae6-32df-4af5-bcad-110f38ad72e7
Taravati, Sajjad
0026f25d-c919-4273-b956-8fe9795b31ce
Eleftheriades, George V.
280bbae6-32df-4af5-bcad-110f38ad72e7

[Unknown type: UNSPECIFIED]

Record type: UNSPECIFIED

Abstract

Static metasurfaces have shown to be prominent compact structures for reciprocal and frequency-invariant transformation of electromagnetic waves in space. However, incorporating temporal variation to static metasurfaces would result in dynamic apparatuses which are capable of four-dimensional tailoring of both the spatial and temporal characteristics of electromagnetic waves, leading to functionalities that are far beyond the capabilities of conventional static metasurfaces. This includes nonreciprocal full-duplex wave transmission, pure frequency conversion, parametric wave amplification, spatiotemporal decomposition, and space-time wave diffraction. This paper reviews recent progress and opportunities offered by space-time metasurfaces to break reciprocity, revealing their potential for low-energy, compact, integrated non-reciprocal devices and sub-systems, and discusses the future of this exciting research front.

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2011.08423v1 - Author's Original
Available under License Creative Commons Public Domain Dedication.
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Published date: 31 October 2020
Keywords: physics.app-ph, physics.class-ph, physics.optics
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Identifiers

Local EPrints ID: 483482
URI: http://eprints.soton.ac.uk/id/eprint/483482
DOI: doi:10.48550/arXiv.2011.08423
PURE UUID: 7c23328c-b22c-47fb-bd2e-b06d41e8d65c

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Date deposited: 31 Oct 2023 18:13
Last modified: 17 Mar 2024 05:08

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Author: Sajjad Taravati
Author: George V. Eleftheriades

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