Efficient weakly-radiative wireless energy transfer: An EIT-like approach

Inspired by a quantum interference phenomenon known in the atomic physics community as electromagnetically induced transparency (EIT), we propose an efficient weakly radiative wireless energy transfer scheme between two identical classical resonant objects, strongly coupled to an intermediate classi...

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Veröffentlicht in:	Annals of physics 2009-08, Vol.324 (8), p.1783-1795
Hauptverfasser:	Hamam, Rafif E., Karalis, Aristeidis, Joannopoulos, J.D., Soljačić, Marin
Format:	Artikel
Sprache:	eng
Schlagworte:	Adiabatic following ATOMIC PHYSICS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS Coupled mode theory Coupling Electromagnetically induced transparency (EIT) Electromagnetics ENERGY TRANSFER EVOLUTION INTERFERENCE Physics Quantum theory RESONANCE Stimulated Raman Adiabatic Passage (STIRAP) Wireless energy transfer
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container_end_page	1795
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container_title	Annals of physics
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creator	Hamam, Rafif E. Karalis, Aristeidis Joannopoulos, J.D. Soljačić, Marin
description	Inspired by a quantum interference phenomenon known in the atomic physics community as electromagnetically induced transparency (EIT), we propose an efficient weakly radiative wireless energy transfer scheme between two identical classical resonant objects, strongly coupled to an intermediate classical resonant object of substantially different properties, but with the same resonance frequency. The transfer mechanism essentially makes use of the adiabatic evolution of an instantaneous (so called “dark”) eigenstate of the coupled 3-object system. Our analysis is based on temporal coupled mode theory (CMT), and is general enough to be valid for various possible sorts of coupling, including the resonant inductive coupling on which witricity-type wireless energy transfer is based. We show that in certain parameter regimes of interest, this scheme can be more efficient, and/or less radiative than other, more conventional approaches. A concrete example of wireless energy transfer between capacitively-loaded metallic loops is illustrated at the beginning, as a motivation for the more general case. We also explore the performance of the currently proposed EIT-like scheme, in terms of improving efficiency and reducing radiation, as the relevant parameters of the system are varied.
doi_str_mv	10.1016/j.aop.2009.05.005
format	Article
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The transfer mechanism essentially makes use of the adiabatic evolution of an instantaneous (so called “dark”) eigenstate of the coupled 3-object system. Our analysis is based on temporal coupled mode theory (CMT), and is general enough to be valid for various possible sorts of coupling, including the resonant inductive coupling on which witricity-type wireless energy transfer is based. We show that in certain parameter regimes of interest, this scheme can be more efficient, and/or less radiative than other, more conventional approaches. A concrete example of wireless energy transfer between capacitively-loaded metallic loops is illustrated at the beginning, as a motivation for the more general case. 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subjects	Adiabatic following ATOMIC PHYSICS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS Coupled mode theory Coupling Electromagnetically induced transparency (EIT) Electromagnetics ENERGY TRANSFER EVOLUTION INTERFERENCE Physics Quantum theory RESONANCE Stimulated Raman Adiabatic Passage (STIRAP) Wireless energy transfer
title	Efficient weakly-radiative wireless energy transfer: An EIT-like approach
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