Title :
A numerical quadrature technique for physical optics scattering analysis
Author :
Crabtree, Glenn D.
Author_Institution :
GE Aircraft Engines, Cincinnati, OH, USA
fDate :
9/1/1991 12:00:00 AM
Abstract :
A quadrature technique for evaluating physical optics (PO) scattering from biquadratic surfaces with associated quadratic phase variation is developed via an extension of Filon quadrature. This involves incorporating a quadratic polynomial amplitude function into the integrand of a Fresnel integral to account for both quadratic phase and amplitude variation of the currents on a curved surface. A 3-D application of this technique for direct PO scattering analysis of curved surfaces, which are defined by a set of biquadratic patches, is presented. Accuracy and computational efficiency of the resulting algorithms are included.
Keywords :
electrical engineering computing; electromagnetic wave scattering; integration; physical optics; physics computing; radar cross-sections; EM scattering; Filon quadrature; Fresnel integral; RCS; accuracy; algorithms; biquadratic patches; biquadratic surfaces; computational efficiency; curved surfaces; direct PO scattering analysis; numerical quadrature technique; physical optics scattering analysis; quadratic phase variation; quadratic polynomial amplitude function; Computational efficiency; Diffraction; Electromagnetic scattering; Integral equations; Optical scattering; Optical surface waves; Physical optics; Radar cross section; Radar scattering; Surface waves;
Journal_Title :
Magnetics, IEEE Transactions on
