Incremental Propagation Procedure for Calculating Scattered Fields from Arbitrary Conductors

Incremental Propagation Procedure for Calculating Scattered Fields from Arbitrary Conductors

A computationally efficient method is described for calculating the scattered fields from conducting bodies of arbitrary shape. The process is non-iterative and incrementally propagates a planar field distribution through the conductor via spectral decomposition of the wave, inserting the necessary...

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Bibliographic Details
Published in:1985 15th European Microwave Conference pp. 213 - 218
Main Authors: Anderson, A.P., Cook, G.G.
Format: Conference Proceeding
Language:English
Published: IEEE 01-09-1985
Subjects:
Boundary conditions
Conductors
Convolution
Dielectric losses
Green's function methods
Laplace equations
Magnetic separation
Radar antennas
Radar scattering
Shape
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Summary:A computationally efficient method is described for calculating the scattered fields from conducting bodies of arbitrary shape. The process is non-iterative and incrementally propagates a planar field distribution through the conductor via spectral decomposition of the wave, inserting the necessary boundary conditions as required. Integration is performed numerically using Fast Fourier Transform routines. The technique is compared with two analytic methods for calculating the scattered fields from a perfectly conducting half plane and then from a perfectly conducting cylinder. A generalisation of the method to deal with scattering off bodies composed of any dielectric material is discussed.
DOI:10.1109/EUMA.1985.333482