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Accession Number:
AD0838899
Title:
GENERALIZED NETWORK PARAMETERS FOR BODIES OF REVOLUTION
Corporate Author:
SYRACUSE UNIV NY DEPT OF ELECTRICAL ENGINEERING
Report Date:
1968-05-01
Abstract:
The problem of electromagnetic radiation and scattering from perfectly conducting bodies of revolution of arbitrary shape is considered. The mathematical formulation is an integro-differential equation, obtained from the potential integrals plus boundary conditions at the body. A solution is effected by the method of moments, and the results are expressed in terms of generalized network parameters. A computer program for computing the generalized impedance matrix of an arbitrary body of revolution is included. The expansion functions chosen for the moment solutions are harmonic in phi azimuth angle and subsectional in t contour length variable. Because of rotational symmetry, the solution becomes a Fourier series in phi, each term of which is uncoupled to every other term. Hence, the problem reduces to a set of independent modes, one for each harmonic term. Illustrative computations are given for radiation from apertures and planewave scattering from bodies of revolution. The impedance elements, currents, radiation patterns, and scattering patterns for a conducting sphere are computed both from the general program and from the classical eigenfunction solution. The agreement obtained serves to check the general program. Similar computations for a cone-sphere illustrate the application of the general program to problems not solvable by classical methods.
Pages:
0077
Distribution Statement:
Approved for public release; distribution is unlimited.
Contract Number:
F19628-67-C-0233
File Size:
2.43MB
