Numerical and experimental impedance analyses of dipole antenna in the vicinity of deionized water at different temperatures

Amin Saeedfar; Hiroyasu Sato; Kunio Sawaya

doi:10.1093/ietcom/e91-b.3.963

Numerical and experimental impedance analyses of dipole antenna in the vicinity of deionized water at different temperatures

Amin Saeedfar, Hiroyasu Sato, Kunio Sawaya

ENG - Communications Engineering

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

This paper includes different approaches for analysis of a thin-wire antenna in the presence of de-ionized water box at different temperatures as a high-permittivity three-dimensional dielectric body. In continuation with the previous work of authors, first, the coupled tensorvolume/line integral equations is solved by using Galerkin-based moment method (MoM) consisting of a combination of entire-domain and subdomain basis functions including three-dimensional polynomials with different degrees. Then, the accuracy of such MoM, specifically for a highpermittivity dielectric scatterer, is substantiated by comparing its numerical results with that of FDTD method and some experimental data.

Original language	English
Pages (from-to)	963-967
Number of pages	5
Journal	IEICE Transactions on Communications
Volume	E91-B
Issue number	3
DOIs	https://doi.org/10.1093/ietcom/e91-b.3.963
Publication status	Published - 2008

Keywords

FDTD method
High-permittivity scatterers
Mixed-domain MoM
Pocklington's integral equation
Tensor-volume integral equation

ASJC Scopus subject areas

Software
Computer Networks and Communications
Electrical and Electronic Engineering

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10.1093/ietcom/e91-b.3.963

Cite this

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abstract = "This paper includes different approaches for analysis of a thin-wire antenna in the presence of de-ionized water box at different temperatures as a high-permittivity three-dimensional dielectric body. In continuation with the previous work of authors, first, the coupled tensorvolume/line integral equations is solved by using Galerkin-based moment method (MoM) consisting of a combination of entire-domain and subdomain basis functions including three-dimensional polynomials with different degrees. Then, the accuracy of such MoM, specifically for a highpermittivity dielectric scatterer, is substantiated by comparing its numerical results with that of FDTD method and some experimental data.",

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AU - Saeedfar, Amin

AU - Sato, Hiroyasu

AU - Sawaya, Kunio

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Y1 - 2008

N2 - This paper includes different approaches for analysis of a thin-wire antenna in the presence of de-ionized water box at different temperatures as a high-permittivity three-dimensional dielectric body. In continuation with the previous work of authors, first, the coupled tensorvolume/line integral equations is solved by using Galerkin-based moment method (MoM) consisting of a combination of entire-domain and subdomain basis functions including three-dimensional polynomials with different degrees. Then, the accuracy of such MoM, specifically for a highpermittivity dielectric scatterer, is substantiated by comparing its numerical results with that of FDTD method and some experimental data.

AB - This paper includes different approaches for analysis of a thin-wire antenna in the presence of de-ionized water box at different temperatures as a high-permittivity three-dimensional dielectric body. In continuation with the previous work of authors, first, the coupled tensorvolume/line integral equations is solved by using Galerkin-based moment method (MoM) consisting of a combination of entire-domain and subdomain basis functions including three-dimensional polynomials with different degrees. Then, the accuracy of such MoM, specifically for a highpermittivity dielectric scatterer, is substantiated by comparing its numerical results with that of FDTD method and some experimental data.

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KW - High-permittivity scatterers

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KW - Pocklington's integral equation

KW - Tensor-volume integral equation

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Numerical and experimental impedance analyses of dipole antenna in the vicinity of deionized water at different temperatures

Abstract

Keywords

ASJC Scopus subject areas

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