Расчёт поверхностного тока и поля излучения идеальной полуплоскости, возбуждаемой щелью, перпендикулярной её краю

The problem of establishing the relationship between the surface currents and the radiation field of an ideally conducting half-plane excited by the slots of various shapes (constant width, linearly or exponentially expanding, etc.) perpendicular to the edge of the half-plane is solved. The relationships are obtained which allow one to calculate the currents induced on the surface of a half-plane affecting the radiation-field creation. The relationship of the surface currents on the half-plane with radiation patterns (RP) of the corresponding slot antennas (SA) is established. The curves of the surface currents and RP for SA of constant width are calculated on the basis of the obtained formulas. The patterns of variation in the current dependencies on the geometric dimensions of the slot and their effect on the corresponding RP were established. It has been shown that experimentally measured RP for similar experimental SA confirm the identified regularities for the corresponding design currents and RP, and make it possible to establish the applicability range for the obtained mathematical models. The SA studies were carried out in the frequency range of 8-12 GHz (the average frequency is 10 GHz), the validity of the obtained models in the specified frequency range is shown.