通过在波导中出现圆柱形等离子体包体而实现的辐射转换

Proceedings of 2002 4th International Conference on Transparent Optical Networks (IEEE Cat. No.02EX551) Pub Date : 2002-08-07 DOI:10.1109/ICTON.2002.1007865

N. Sakhnenko, A. Nerukh, N. Ruzhitskaya

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引用次数: 2

摘要

研究了具有时变等离子体的微腔中线发射体对电磁场的激发。微腔由等离子体的圆柱体组成在平面介质波导中。圆柱体垂直于波导边界的完美导电板，模拟了非常高导电性的半导体层。假设在零时刻之前，波导中充满某种均匀的介电介质。在零时刻，均匀时变等离子体是由某一有限半径圆柱体内的外来源产生的。一个与圆柱体同轴且具有任意时间依赖性的垂直驱动线电流激发了整个系统中的电磁场。该电流被认为是一种光发射器模型，可以在等离子体出现之前或之后的任意时刻打开。

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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Transformation of radiation by appearance of a cylindrical plasma inclusion in a waveguide

The excitation of electromagnetic field by a line emitter in microcavity with time-varying plasma is considered. The microcavity is made up in a planar dielectric waveguide by a circular cylinder of the plasma. The cylinder is perpendicular to perfectly conducting plates of waveguide boundaries that simulates semiconductor layers of very high conductivity. It is assumed that until zero moment of time the waveguide was filled with some homogeneous dielectric medium. At zero moment of time, homogeneous time-varying plasma is created by an extrinsic source inside a cylinder of some finite radius. A vertical driving line current that is co-axial to the cylinder and has an arbitrary temporal dependence excites the electromagnetic field in the whole system. This current is considered as a sort of light emitter model and can be turned on at arbitrary moment, either before or after plasma appearance.

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Proceedings of 2002 4th International Conference on Transparent Optical Networks (IEEE Cat. No.02EX551)

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