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2013 (Vol. 5, Issue: 05)
Article Information:

Simulation of Magnetic Resonance for Wireless Power Transfer

Liang Zhao and Yangjie Liu
Corresponding Author:  Yangjie Liu 

Key words:  Magnetic resonance, simulation, technology, wireless power transfer, , ,
Vol. 5 , (05): 1578-1582
Submitted Accepted Published
July 12, 2012 August 28, 2012 February 11, 2013
Abstract:

André Kurs et al. et al. (2007) in Science 317, 83 titled Wireless Power Transfer via Strongly Coupled Magnetic Resonances, proposed a feasible scheme to near-field transfer electric energy. Here in this report we take note of our simulation on COMSOL 4.1.085 to repeat his counterpart in Chapter 4 of his master thesis. Due to huge requirement on memory size, my simulation fails to align with Kurs', but basic steps and setup instructions are given. Very importantly, every scholar with electromagnetic background would simply take this as magnetic inducing current in closed loops, exactly as we did. Yet, this imparts more essence on resonance. A look into coupled-mode theory will find this takes advantage of near-field magnetic field to transfer energy. A transformer, a true product of magnetic induction, if simply detached by a distance would greatly reduce its transfer efficiency, whereas magnetic resonance DOES NOT! So this is more than only magnetic induction. Although coupled-mode theory is still not physical enough to illustrate readers, neither does magnetic induction in Maxwell's equations give its simple picture! Coupled-mode theory perhaps is a simple way out quantitatively and mathematically.
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  Cite this Reference:
Liang Zhao and Yangjie Liu, 2013. Simulation of Magnetic Resonance for Wireless Power Transfer.  Research Journal of Applied Sciences, Engineering and Technology, 5(05): 1578-1582.
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ISSN (Online):  2040-7467
ISSN (Print):   2040-7459
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