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Band gap tunability in deformable dielectric composite plates
Roey Getz, Gal Shmuel
Research output
:
Contribution to journal
›
Article
›
peer-review
24
Scopus citations
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Dive into the research topics of 'Band gap tunability in deformable dielectric composite plates'. Together they form a unique fingerprint.
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Keyphrases
Band Gap
50%
Bandgap Tunability
100%
Composite Film
50%
Composite Plate
100%
Deformable
100%
Dielectric Composites
100%
Dielectric Elastomer
100%
Dielectric Film
50%
Elastomer Fibers
50%
Equation-based
50%
Fiber Composites
50%
Film Thickness
50%
Harmonic Excitation
50%
Manipulator
50%
Phase Properties
50%
Plane Wave Expansion Method
50%
Small-amplitude Wave
50%
Soft Dielectrics
50%
Supercells
50%
Engineering
Composite Fiber
50%
Dielectric Elastomer
100%
Dielectric Film
50%
Dielectrics
100%
Energy Gap
100%
Film Property
50%
Harmonic Excitation
50%
Laminated Composite Plate
100%
Manipulator
50%
Plane Wave
50%
Supercell
50%
Material Science
Composite Films
33%
Dielectric Films
33%
Dielectric Material
100%
Elastomer
66%
Film
33%
Film Thickness
33%
Laminated Plate
100%