| Abstract: | This paper presents a further development of the numerical-analytical method for the solution of three-dimensional problems
in the theory of radio wave propagation. We consider a vector problem of the electromagnetic field of a vertical electric
dipole in a plane Earth-ionosphere waveguide with a local large-scale irregularity on the anisotropic ionosphere wall. The
possibility of lowering (elevating) of the local region of the upper waveguide wall with respect to the regular ionosphere
level is taken into account. The field components on the boundary surfaces obey the Leontovich impedance conditions. The problem
is reduced to a system of two-dimensional integral equations taking into account the overexcitation and depolarization of
the field scattered by the irregularity. Using asymptotic (with respect to the parameter kr ≫1) integration along the direction
perpendicular to the ray path, we transform this system to a system of one-dimensional integral equations. The system is solved
numerically in the diagonal approximation, combining direct inversion of the Volterra integral operator and the subsequent
iterations. The proposed method reduces the computer time required for solving the problem and is useful for the study of
both small-scale and large-scale irregularities. We obtained estimates of the TE field components that are not excited by
the source considered and originate entirely from field scattering by a three-dimensional irregularity disturbing the geometric
regularity of the ionospheric waveguide wall.
State University of St. Petersburg, Russia Translated from Izvestiya Vysshikh Uchebnykh Zavedenii, Radiofizika, Vol. 43, No.
7, pp. 617–629, July, 2000. |
