Numerical analysis of a coaxial line terminated with a complex gap capacitance

Proceedings of the 20th IEEE Instrumentation Technology Conference (Cat. No.03CH37412) Pub Date : 2003-05-20 DOI:10.1109/IMTC.2003.1207918

J. Obrzut, A. Anopchenko

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Abstract

A full wave numerical analysis was performed for a coaxial line terminated by a complex gap capacitance. The scattering parameters, input impedance and the spatial distribution of the electromagnetic field have been obtained in the frequency range of 100 MHz to 20 GHz for specimens 8 /spl mu/m to 320 /spl mu/m thick, with a dielectric constant of up to 70. It was found that the impedance characteristic of the network is affected by the LC resonance coupled with the cavity resonance. Embedding in the network an inductive component, such as section of the coaxial transmission line, allows one to decouple these two resonant behaviors. The specimen inductance is linearly dependent on the specimen thickness. At frequencies near the cavity resonance, the specimen section can be treated as a network of a transmission line with capacitance, where the fundamental mode propagates along the diameter of the specimen. The results are useful in improving accuracy of broadband dielectric measurements in extended frequency range of thin films with high dielectric constant that are of interest to bio- and nano-technology.

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端接有复隙电容的同轴线的数值分析

对端接复杂间隙电容的同轴线进行了全波数值分析。得到了厚度为8 /spl mu/m ~ 320 /spl mu/m试样在100 MHz ~ 20 GHz频率范围内的散射参数、输入阻抗和电磁场的空间分布。研究发现，LC谐振与腔谐振的耦合影响了网络的阻抗特性。在网络中嵌入电感元件，例如同轴传输线的一段，可以使这两种谐振行为去耦。试样的电感与试样的厚度呈线性关系。在接近谐振腔的频率下，试样截面可以看作是一个带有电容的传输线网络，其中基模沿着试样的直径传播。研究结果有助于提高高介电常数薄膜宽频率范围内的宽带介电测量精度，这是生物和纳米技术感兴趣的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 20th IEEE Instrumentation Technology Conference (Cat. No.03CH37412)

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