Hybrid FE/MoM analysis of a cavity-backed slit loaded with anisotropic material

D. M. Kokotoff; F. Zavosh; James Aberle; E. B. Ei-Sharawy

Hybrid FE/MoM analysis of a cavity-backed slit loaded with anisotropic material

D. M. Kokotoff, F. Zavosh, James Aberle, E. B. Ei-Sharawy

Electrical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter

3 Scopus citations

Abstract

The paper presents an analysis of a slit in a dielectric coated ground plane backed by a 2D cavity. The cavity can be inhomogeneously filled with anisotropic material, and the dielectric coating can contain a perfectly conducting strip. A fullwave frequency domain model is developed wherein finite elements are coupled with the spectral domain method of moments. The method is- validated through comparisons to results generated by other fullwave models. Convergence results for different finite element types are studied. Theoretical results for cavities partially filled with ferrite material are generated. Specifically, the effect of the DC magnetic bias field on ferrite material is studied.

Original language	English (US)
Title of host publication	IEE Proceedings: Microwaves, Antennas and Propagation
Pages	422-429
Number of pages	8
Volume	143
Edition	5
State	Published - 1996

Keywords

Cavity backed slit
Ferrite material
Finite element technique
Frequency domain model
Method of moments

ASJC Scopus subject areas

Electrical and Electronic Engineering
Computer Networks and Communications

Cite this

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title = "Hybrid FE/MoM analysis of a cavity-backed slit loaded with anisotropic material",

abstract = "The paper presents an analysis of a slit in a dielectric coated ground plane backed by a 2D cavity. The cavity can be inhomogeneously filled with anisotropic material, and the dielectric coating can contain a perfectly conducting strip. A fullwave frequency domain model is developed wherein finite elements are coupled with the spectral domain method of moments. The method is- validated through comparisons to results generated by other fullwave models. Convergence results for different finite element types are studied. Theoretical results for cavities partially filled with ferrite material are generated. Specifically, the effect of the DC magnetic bias field on ferrite material is studied.",

keywords = "Cavity backed slit, Ferrite material, Finite element technique, Frequency domain model, Method of moments",

author = "Kokotoff, {D. M.} and F. Zavosh and James Aberle and Ei-Sharawy, {E. B.}",

year = "1996",

language = "English (US)",

volume = "143",

pages = "422--429",

booktitle = "IEE Proceedings: Microwaves, Antennas and Propagation",

edition = "5",

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T1 - Hybrid FE/MoM analysis of a cavity-backed slit loaded with anisotropic material

AU - Kokotoff, D. M.

AU - Zavosh, F.

AU - Aberle, James

AU - Ei-Sharawy, E. B.

PY - 1996

Y1 - 1996

N2 - The paper presents an analysis of a slit in a dielectric coated ground plane backed by a 2D cavity. The cavity can be inhomogeneously filled with anisotropic material, and the dielectric coating can contain a perfectly conducting strip. A fullwave frequency domain model is developed wherein finite elements are coupled with the spectral domain method of moments. The method is- validated through comparisons to results generated by other fullwave models. Convergence results for different finite element types are studied. Theoretical results for cavities partially filled with ferrite material are generated. Specifically, the effect of the DC magnetic bias field on ferrite material is studied.

AB - The paper presents an analysis of a slit in a dielectric coated ground plane backed by a 2D cavity. The cavity can be inhomogeneously filled with anisotropic material, and the dielectric coating can contain a perfectly conducting strip. A fullwave frequency domain model is developed wherein finite elements are coupled with the spectral domain method of moments. The method is- validated through comparisons to results generated by other fullwave models. Convergence results for different finite element types are studied. Theoretical results for cavities partially filled with ferrite material are generated. Specifically, the effect of the DC magnetic bias field on ferrite material is studied.

KW - Cavity backed slit

KW - Ferrite material

KW - Finite element technique

KW - Frequency domain model

KW - Method of moments

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M3 - Chapter

AN - SCOPUS:0030263322

VL - 143

SP - 422

EP - 429

BT - IEE Proceedings: Microwaves, Antennas and Propagation

ER -

Hybrid FE/MoM analysis of a cavity-backed slit loaded with anisotropic material

Abstract

Keywords

ASJC Scopus subject areas

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