Mathematical Analysis of Electromagnetic Guided Propagation and Scattering in Millimeter-Wave and Optical Fields

2018 Progress in Electromagnetics Research Symposium (PIERS-Toyama) Pub Date : 2018-08-01 DOI:10.23919/PIERS.2018.8597638

Y. Miyazaki

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Abstract

After the year 1960, mathematical analysis for electromagnetic scattering, diffraction and guided field with complicated boundaries have been developed, based on field analysis methods shown in the previous period around years of 1950. J. A. Kong, K. Hongo and we are belonging to such investigation generation. Millimeter wave and optical technologies have rapidly grown after the coherent millimeter wave devices and lasers have been investigated. Here, some typical studies are shown. Novel mathematical method of integral equation method with conformal mapping is discussed for asymptotic diffraction of electromagnetic field by complicated boundaries, such as an elliptic cylinder perturbed by the circular cylinder. Mode conversions of millimeter wave fields in the waveguide junction between over size circular waveguide and conical horn are investigated by the asymptotic diffraction theory. Field characteristics of the Fabry-Perot resonator with finite circular curved disks are analyzed by the vector integral equations. General scattering and transmission characteristics of beam waves in curved boundaries with wedges are analyzed by spectral function method.

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毫米波和光场中电磁引导传播和散射的数学分析

1960年以后，在1950年前后的场分析方法的基础上，发展了具有复杂边界的电磁散射、衍射和引导场的数学分析。孔志刚、洪光和我们都属于这样的调查一代。相干毫米波器件和激光器问世后，毫米波和光学技术得到了迅速发展。下面是一些典型的研究。讨论了电磁场在受圆柱扰动的椭圆圆柱等复杂边界下渐近衍射的保角映射积分方程方法。利用渐近衍射理论研究了大尺寸圆波导与锥形喇叭波导交界处毫米波场的模式转换。用矢量积分方程分析了有限圆曲盘法布里-珀罗谐振腔的场特性。用谱函数法分析了波束波在楔形弯曲边界中的一般散射和透射特性。

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2018 Progress in Electromagnetics Research Symposium (PIERS-Toyama)

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