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Effective longitudinal magnetic response of magnetic metamaterial in the GHz frequencies

Effective longitudinal magnetic response of magnetic metamaterial in the GHz frequencies Purpose – The purpose of this paper is to study the microwave behaviour of effective magnetic permeability for two‐component ferrite like metamaterial medium in the direction of a biasing magnetic field. The metamaterial medium is presented as an infinite host dielectric material (air) with periodically embedded ferric cylindrical and spherical inclusions saturated with an external dc magnetic field. The study is based on the effective medium theory developed for polycrystalline metaferrites. The simulations show that the presented metamaterial can exhibit the ultra‐low refractive index (ULI) phenomenon and the phenomenon of negative magnetic permeability for the case of microwave propagation in the direction of bias. Design/methodology/approach – The obtained results are based on the wave long approximation of permeability tensor of the presented metamaterial media obtained earlier by the first author. Using the standard approach, the authors apply the above expressions for the microwave propagation in direction of biasing dc magnetic field considering different polarization of the incident microwave. Findings – The considered artificial material media can become either material with a ULI or with negative values in the GHz frequencies. Originality/value – The paper is concerned with part of the theory of a new generation of artificial ferrites. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Multidiscipline Modeling in Materials and Structures Emerald Publishing

Effective longitudinal magnetic response of magnetic metamaterial in the GHz frequencies

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Publisher
Emerald Publishing
Copyright
Copyright © 2011 Emerald Group Publishing Limited. All rights reserved.
ISSN
1573-6105
DOI
10.1108/1536-540911178270
Publisher site
See Article on Publisher Site

Abstract

Purpose – The purpose of this paper is to study the microwave behaviour of effective magnetic permeability for two‐component ferrite like metamaterial medium in the direction of a biasing magnetic field. The metamaterial medium is presented as an infinite host dielectric material (air) with periodically embedded ferric cylindrical and spherical inclusions saturated with an external dc magnetic field. The study is based on the effective medium theory developed for polycrystalline metaferrites. The simulations show that the presented metamaterial can exhibit the ultra‐low refractive index (ULI) phenomenon and the phenomenon of negative magnetic permeability for the case of microwave propagation in the direction of bias. Design/methodology/approach – The obtained results are based on the wave long approximation of permeability tensor of the presented metamaterial media obtained earlier by the first author. Using the standard approach, the authors apply the above expressions for the microwave propagation in direction of biasing dc magnetic field considering different polarization of the incident microwave. Findings – The considered artificial material media can become either material with a ULI or with negative values in the GHz frequencies. Originality/value – The paper is concerned with part of the theory of a new generation of artificial ferrites.

Journal

Multidiscipline Modeling in Materials and StructuresEmerald Publishing

Published: Sep 27, 2011

Keywords: Materials; Microwaves; Electromagnetism; Metamaterials; Electromagnetic response; Effective parameters; Effective medium theory; Ferrite

References