Electrodynamic analysis of mirror antennas in the approximation of the barycentric method


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Abstract

In the article, the features of using the barycentric method in solving problems of electrodynamic analysis of mirror antennas are considered. The solution of the internal problem of electrodynamics is the basis of the study. The problem of electrodynamic analysis of a mirror antenna is formulated in the classical representation of the problem of diffraction of an electromagnetic wave on a system of infinitely thin perfectly conducting screens of arbitrary shape and reduced to a system of integro-differential equations. The solution of the latter is performed numerically in the projection formulation of the Galerkin method when determining the approximation of the desired surface current density function in the system of global basis functions formed in the approximation of the barycentric method for the analyzed screen. The integral representation of the electromagnetic field of the mirror antenna, taking into account the properties of the introduced basic functions, is given. The features of the algorithmic implementation of the developed solutions are clarified. The efficiency and comparative preference of the use of the barycentric method in the problems of electrodynamic analysis of mirror antennas are tested on test examples.

About the authors

Ivan S. Polyansky

The Academy of the Federal Guard Service of the Russian Federation

Author for correspondence.
Email: van341@mail.ru

Dmitry E. Stepanov

The Academy of the Federal Guard Service of the Russian Federation

Email: stepbystep000@ya.ru

Dmitry K. Ketoh

The Academy of the Federal Guard Service of the Russian Federation

Email: kdk_hcc@mail.ru

Vyacheslav A. Shevchenko

The Academy of the Federal Guard Service of the Russian Federation

Email: sheff-slava@mail.ru

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Copyright (c) 2020 Polyansky I., Stepanov D., Ketoh D., Shevchenko V.

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