用介电材料散射系数反演复介电常数的场分析与电路分析比较

2013 Second International Japan-Egypt Conference on Electronics, Communications and Computers (JEC-ECC) Pub Date : 2013-12-01 DOI:10.1109/JEC-ECC.2013.6766385

A. Sallam

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引用次数: 0

摘要

目标是确定加工成适合x波段矩形波导(WG)的介电材料(样品)的光谱介电特性∈。为了实现这一目标，采用了两种方法，即场法(FA)和电路法(CA)，其中矩形样品界面处的边界条件用于解决样品输入处的反射系数Γ。在CA中，将WG切片(空气-样品-空气)的ABCD矩阵级联并变换以获得系统的传输/反射特性(散射矩阵[S])，在FA和CA中，都使用Muller算法扫描确定性方程根。采用复杂非线性最小二乘(CNLS)进行数据拟合。注意到在WG工作频带的中低频段FA和CA是一致的。聚四氟乙烯和Polystrene的结果与公布的数据相符。

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Comparison of field and circuit analysis for retrieving complex dielectric constant from dielectric material scattering coefficient

The goal is to determine spectral dielectric properties ∈ of a dielectric material (sample) machined to fit X-band rectangular waveguide (WG). Two approaches were utilized to achieve this goal, field approach (FA) and circuit approach (CA) in FA the boundary conditions at interfaces of the rectangular sample were used to address the reflection coefficient Γ at the sample input. In CA the ABCD matrices of WG sections (air-sample-air) were cascaded and transformed to obtain system transmission/reflection properties (scattering matrix[S]), in both FA and CA a deterministic equation roots were scanned using Muller's algorithm. Data fitting is carried using complex nonlinear least square (CNLS). An agreement was noticed for FA and CA at low and mid ranges of WG working band. Teflon and Polystrene results match the publishing data.

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2013 Second International Japan-Egypt Conference on Electronics, Communications and Computers (JEC-ECC)

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