Effective properties of siloxane containing imbedded metal helices as a chiral microwave-absorbing material

1996 26th European Microwave Conference Pub Date : 1996-10-01 DOI:10.1109/EUMA.1996.337702

H. Űberall, B. Howell

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引用次数: 1

Abstract

We have carried out microwave measurements, accompanied by a theoretical analysis, of the effective permittivity and permeability of a chiral composite microwave-absorbing material consisting of a siloxane matrix with imbedded metal-microhelices. Absorptivities and material constants of effective chiral materials (containing either helices or chiral-material inclusions) have recently been obtained in the form of a single resonance in the frequency variable. Our experiments are the first ones to show two resonances in one and the same measurement (first since the 1957-1960 studies of microwave optical activity by Tinoco et al., see e.g. J. Phys. Chem. 61, 1196), which leads to important advances in the physical interpretation of the origin of the resonance absorptivity: determination of the resonance order of a standing wave spanning the overall length of the helix in steps of half-wavelengths (thereby also obtaining the orders of the previously observed single resonances), and a quantitative theoretical prediction of the resonance values of the effective permittivity and permeability, based on a single-scattering model by Bohren and Huffman as adapted to helices, in good agreement with the measurements.

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含嵌入金属螺旋的硅氧烷作为手性微波吸收材料的有效性能

我们进行了微波测量，并结合理论分析了由嵌入金属微螺旋的硅氧烷基体组成的手性复合微波吸收材料的有效介电常数和磁导率。有效手性材料(包含螺旋或手性材料内含物)的吸收率和材料常数最近以频率变量的单共振形式获得。我们的实验是第一次在同一测量中显示两个共振(自Tinoco等人1957-1960年对微波光学活性的研究以来的第一次，参见J. Phys。化学，61,1196)，这导致了共振吸收率起源的物理解释的重要进展:以半波长为步长确定了跨越螺旋总长度的驻波的共振阶数(从而也获得了先前观察到的单共振阶数)，并基于Bohren和Huffman的单散射模型对有效介电常数和磁导率的共振值进行了定量理论预测，该模型适用于螺旋，与测量结果很好地吻合。

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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1996 26th European Microwave Conference

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