Scattering characteristics of finite arrays of cylindrical cavities in an infinite ground plane

Abstract: In this paper, we investigate the scattering characteristics of finite one-dimensional (1-D) and two-dimensional arrays of cylindrical cavities embedded within an infinite perfect electric conducting ground plane. Fundamental radar cross-section (RCS) features of said arrays are illustrated, with the RCS computed with respect to the scattered (diffracted) field component, obtained directly from the aperture currents. The aperture currents on the finite structure are computed using a hybrid space/spectral-domai… Show more

“…Many works addressing this issue have been performed. Dipole arrays are considered as Frequency Selective Surface (FSS) or scatter [1][2][3]. In these procedures, they only referred scattered field using other methods, and didn't give any discussion.…”

“…(r) is the RWG basis function corresponding to element M. The surface current coefficients Im are known from the solution of the moment equation(3). And the index c denotes the triangle's midpoint.…”

Research on Scattering Property of Finite Dipole Array

“…Many works addressing this issue have been performed. Dipole arrays are considered as Frequency Selective Surface (FSS) or scatter [1][2][3]. In these procedures, they only referred scattered field using other methods, and didn't give any discussion.…”

“…(r) is the RWG basis function corresponding to element M. The surface current coefficients Im are known from the solution of the moment equation(3). And the index c denotes the triangle's midpoint.…”

Research on Scattering Property of Finite Dipole Array

Analysis of the scattering characteristics of finite arrays on an infinite ground plane based on finite elements and generalized scattering matrix

Application of the Active Element Pattern Method for Calculation of the Scattering Pattern of Large Finite Arrays