DETERMINATION OF THE ELECTRIC TENSION COMPOSITION OF ELECTROMAGNETIC FIELD
WITH ACCOUNT OF REFLECTIONS 

Andreev Pavel Gennadyevich, candidate of technical sciences, associate professor, sub-department of radio equipment design and production, Penza State University (40 Krasnaya street, Penza, Russia), kipra@mail.ru
Grishko Aleksey Konstantinovich, candidate of technical sciences, associate professor, sub-department of radio equipment design and production, Penza State University (40 Krasnaya street, Penza, Russia), alexey-grishko@rambler.ru
Kochegarov Igor' Ivanovich, candidate of technical sciences, associate professor, sub-department of radio equipment design and production, Penza State University (40 Krasnaya street, Penza, Russia), alexey-grishko@rambler.ru

621.391.812.7

The problem of determining electric component of electromagnetic field taking into account reflections. The aim of this work is to provide a method used in the framework of geometrical optics, based on the properties of the elements of Huygens, given the complex shape of the reflecting surface of objects. To solve this problem we use the method of geometrical optics in its application for the case when the length of the electromagnetic wave is comparable with the size of the surface reflection. To represent complex shape of the reflecting surface of objects using a decomposition method, where each phase partitioning has the properties of  elementary electric dipoles Hertz. Consequently, the proposed approach to the determination of the strength of the electric component of an electromagnetic field with account of reflections in the framework of geometrical optics, based on the properties of the elements of Huygens, given the complex shape of the reflecting surface of objects. The calculated expressions for the main planes of the Cartesian coordinate system. A method was developed to determine the strength of the electric component of an electromagnetic field as a result of a reflection taking into account amplitudes and phases from each elementary portion of the surface of complex shape. The proposed method will reduce errors in calculation results, and therefore increase the quality of design solutions in the development of radioelectronic means of different purposes.

the strength of the electric component of an electromagnetic field, the surface reflection, the method of geometrical optics, element Huygens