The structure of the radiation field of a symmetric slot line perpendicular to the edge of an infinite half-plane, taking into account the cross-polarization component
Автор: Nefyodov Eugeniy I., Ponomarev Igor N., Zayarnyi Viacheslav P.
Журнал: Физика волновых процессов и радиотехнические системы @journal-pwp
Статья в выпуске: 2 т.26, 2023 года.
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Background. Symmetric slot lines on a perfectly reflecting half-plane are good mathematical models for slot antennas on an ideal plane of finite dimensions, which in practice have a high gain and operate over a wide frequency band. These antennas are used in ultra-fast information processing systems based on microwave and optical volume integrated circuits. Aim. The work presents a solution to the problem of radiation of a perfectly reflecting half-plane, which was excited by a symmetric slot line with a different law of slot expansion. Methods. The problem was solved by the Fourier variable separation method, by which the Green tensor function was obtained, which connects the two components of the antenna radiation field with the excitation field in the gap. Results. It is shown that in the far zone, the radiation field of an ideally reflecting half-plane has two components: the main and crosspolarization. The Green tensor function has a complex form and consists of two terms. The analysis of the Green tensor function shows the participation of each term in the formation of a field in the far zone, demonstrates the mechanism of radiation and leads to known special cases for slot radiators. Conclusion. The validity of the presented mathematical model is confirmed by experimental research.
Traveling wave antenna, symmetric slot line, ideal wedge, ideal half-plane, cross-polarization component of the field, radiation pattern
Короткий адрес: https://sciup.org/140300673
IDR: 140300673 | DOI: 10.18469/1810-3189.2023.26.2.27-35