Title :
Special problems in applying the physical optics method for backscatter computations of complicated objects
Author :
Klement, D. ; Preissner, J. ; Stein, Volker
Author_Institution :
DFVLR Oberpfaffenhofen, West Germany
fDate :
2/1/1988 12:00:00 AM
Abstract :
The backscatter computation of complicated objects is carried by the physical optics (PO) method, known as the vector Kirchoff approximation. The object is described by a geometrical model using flat plates (panels). These panels can be nonperfectly conducting and multilayered. The PO solution for the scattering matrix of a single multilayered panel is evaluated in detail using the Fresnel reflection coefficients. An example of the computed reflection coefficient of a two-layered medium is presented. The phase integral of the PO method is solved analytically. The hidden-surface problem is discussed, and the procedure for the treatment of doubly reflecting panels is described. For an ideal conducting cube with additional surfaces that generate shadow and double-reflection effects, the computed radar cross section (RCS) is compared with measurements. Computational results of the RCS for nonperfectly conducting panels are given
Keywords :
backscatter; electromagnetic wave reflection; electromagnetic wave scattering; physical optics; radar cross-sections; Fresnel reflection coefficients; backscatter computations; complicated objects; computed radar cross section; doubly reflecting panels; flat plates; geometrical model; hidden-surface problem; ideal conducting cube; multilayered panels; nonperfectly conducting panels; panels; phase integral; physical optics; vector Kirchoff approximation; Backscatter; Fresnel reflection; Optical computing; Optical reflection; Optical scattering; Physical optics; Physics computing; Radar scattering; Solid modeling; Surface treatment;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
