I. Vendik scite author profile

Metamaterials offer new unusual electromagnetic properties, which have already been demonstrated, and many postulated new functionalities are yet to be realized. Currently, however, metamaterials are mostly limited by narrow band behavior, high losses, and limitation in making genuinely 3D materials. In order to overcome these problems an overlap between metamaterial concepts and materials science is necessary. Engineered self‐organization is presented as a future approach to metamaterial manufacturing. Using directional solidification of eutectics, the first experimental realization of self‐organized particles with a split‐ring resonator‐like cross section is demonstrated. This unusual morphology/microstructure of the eutectic composite has a fractal character. With the use of TEM and XRD the clear influence of the atomic crystal arrangement on the microstructure geometry is presented. The materials obtained present very high anisotropy and can be obtained in large pieces. Metallodielectric structures can be created by etching and filling the space with metal. The next steps in the development of self‐organized materials exhibiting unusual properties are discussed.

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Empirical model of the microwave properties of high-temperature superconductors

Vendik

Kaparkov

1998

IEEE Trans. Microwave Theory Techn.

130

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Metamaterials and their application in microwaves: A review

Vendik

2013

Tech. Phys.

134

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Commutation quality factor of two-state switchable devices

Vendik

Kollberg

2000

IEEE Trans. Microwave Theory Techn.

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I. Vendik

Ultrawideband (UWB) Planar Antenna with Single-, Dual-, and Triple-Band Notched Characteristic Based on Electric Ring Resonator

How Far Are We from Making Metamaterials by Self‐Organization? The Microstructure of Highly Anisotropic Particles with an SRR‐Like Geometry

Empirical model of the microwave properties of high-temperature superconductors

Metamaterials and their application in microwaves: A review

Commutation quality factor of two-state switchable devices

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