An Efficient, Wide-Band and Wide-Angle Metamaterial Electromagnetic Energy Harvester

Aaron M. Graham; Stylianos D. Assimonis; Simon Cotton; Christos S. Antonopoulos

An Efficient, Wide-Band and Wide-Angle Metamaterial Electromagnetic Energy Harvester

Aaron M. Graham, Stylianos D. Assimonis, Simon Cotton, Christos S. Antonopoulos

School of Electronics, Electrical Engineering and Computer Science

Research output: Contribution to conference › Paper › peer-review

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Abstract

This work presents the design and subsequent numerical analysis of a new metamaterial based, electromagnetic energy harvester. The structure exploits the geometry of the well-known electric split ring resonator (eSRR) and presents high efficiency (i.e., greater than 90%), it is wideband (i.e., full width at half maximum of 47%) and wide-angle (i.e., 92 deg.).

Original language	English
Pages	54-55
Number of pages	2
Publication status	Published - 05 Jun 2022
Event	20th International Symposium on Applied Electromagnetics & Mechanics - Greece, Thessaloniki Duration: 05 Jun 2022 → 08 Jun 2022 https://www.isem2022.gr/home-english/online

Conference

Conference	20th International Symposium on Applied Electromagnetics & Mechanics
City	Thessaloniki
Period	05/06/2022 → 08/06/2022
Internet address	https://www.isem2022.gr/home-english/online

Keywords

Metasurfaces
Energy Harvesting
Electromagnetic Wave absorption

ASJC Scopus subject areas

General Engineering
Electrical and Electronic Engineering

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An Efficient, Wide-Band and Wide-Angle Metamaterial Electromagnetic Energy Harvester
Copyright 2022, the Authors.
Final published version, 561 KBLicence: Unspecified

Cite this

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title = "An Efficient, Wide-Band and Wide-Angle Metamaterial Electromagnetic Energy Harvester",

abstract = "This work presents the design and subsequent numerical analysis of a new metamaterial based, electromagnetic energy harvester. The structure exploits the geometry of the well-known electric split ring resonator (eSRR) and presents high efficiency (i.e., greater than 90%), it is wideband (i.e., full width at half maximum of 47%) and wide-angle (i.e., 92 deg.).",

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T1 - An Efficient, Wide-Band and Wide-Angle Metamaterial Electromagnetic Energy Harvester

AU - Graham, Aaron M.

AU - Assimonis, Stylianos D.

AU - Cotton, Simon

AU - Antonopoulos, Christos S.

PY - 2022/6/5

Y1 - 2022/6/5

N2 - This work presents the design and subsequent numerical analysis of a new metamaterial based, electromagnetic energy harvester. The structure exploits the geometry of the well-known electric split ring resonator (eSRR) and presents high efficiency (i.e., greater than 90%), it is wideband (i.e., full width at half maximum of 47%) and wide-angle (i.e., 92 deg.).

AB - This work presents the design and subsequent numerical analysis of a new metamaterial based, electromagnetic energy harvester. The structure exploits the geometry of the well-known electric split ring resonator (eSRR) and presents high efficiency (i.e., greater than 90%), it is wideband (i.e., full width at half maximum of 47%) and wide-angle (i.e., 92 deg.).

KW - Metasurfaces

KW - Energy Harvesting

KW - Electromagnetic Wave absorption

M3 - Paper

SP - 54

EP - 55

T2 - 20th International Symposium on Applied Electromagnetics & Mechanics

Y2 - 5 June 2022 through 8 June 2022

ER -

An Efficient, Wide-Band and Wide-Angle Metamaterial Electromagnetic Energy Harvester

Abstract

Conference

Keywords

ASJC Scopus subject areas

Access to Document

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Cite this