Parametric analysis of the strain-dependent behavior of a metamaterial electric resonator
Abstract
In this paper, we describe the strain-dependent behavior of an electric-LC (ELC) resonator
unit cell, commonly used in metamaterial designs. We leverage analytic expression
to understand the way strain manifests itself in a change in electromagnetic (EM)
response. We verify the simplified physical models using full-wave simulations and
generalize the trends to accommodate the strain profile for any arbitrary plane-stress
loading scenario. (C) 2010 American Institute of Physics. [doi:10.1063/1.3507892]
Type
Journal articleSubject
physics, appliedPermalink
https://hdl.handle.net/10161/3304Published Version (Please cite this version)
10.1063/1.3507892Citation
Arritt,B.;Adomanis,B.;Khraishi,T.;Smith,D.. 2010. Parametric analysis of the strain-dependent
behavior of a metamaterial electric resonator. Applied Physics Letters 97(19): 191907-191907.
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David R. Smith
James B. Duke Distinguished Professor of Electrical and Computer Engineering
Dr. David R. Smith is currently the James B. Duke Professor of Electrical and Computer
Engineering Department at Duke University. He is also Director of the Center for Metamaterials
and Integrated Plasmonics at Duke and holds the positions of Adjunct Associate Professor
in the Physics Department at the University of California, San Diego, and Visiting
Professor of Physics at Imperial College, London. Dr. Smith received his Ph.D. in
1994 in Physics from the University of California, San D

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