DocumentCode
1020756
Title
High-frequency electromagnetic fields on perfectly conducting concave cylindrical surfaces
Author
Topuz, Ercan ; Felsen, Leopold B.
Author_Institution
Polytechnic Institute of New York, Farmingdale, NY, USA
Volume
28
Issue
6
fYear
1980
fDate
11/1/1980 12:00:00 AM
Firstpage
819
Lastpage
831
Abstract
High-frequency fields are investigated on the surface of a perfectly conducting concave circular cylindrical segment excited by an arbitrarily oriented dipole located on the surface. The vector fields are derived from two scalar Green\´s functions which are constructed as contour integrals and evaluated asymptotically in two alternative ways. In one representation an appropriate number of geometrical optics rays is extracted to provide canonical remainder integrals with highly improved convergence characteristics. In the second approach a properly determined combination of rays together with
- and
-type whispering gallery modes is utilized. Numerical results are presented for the magnitude and polarization of the fields as functions of dipole orientation and observation point location, and are interpreted in terms of the physical models implied by the various field representations. As for scalar sources, the hybrid ray-mode formulation of vector-source excited fields provides a physically attractive and numerically efficient scheme.
- and
-type whispering gallery modes is utilized. Numerical results are presented for the magnitude and polarization of the fields as functions of dipole orientation and observation point location, and are interpreted in terms of the physical models implied by the various field representations. As for scalar sources, the hybrid ray-mode formulation of vector-source excited fields provides a physically attractive and numerically efficient scheme.Keywords
Antenna proximity factors; Cylinders; Dipole antennas; Geometrical optics (GO); Convergence; Electromagnetic fields; Geometrical optics; Helium; Magnetic analysis; Optical polarization; Optical propagation; Optical reflection; Surface treatment; Whispering gallery modes;
fLanguage
English
Journal_Title
Antennas and Propagation, IEEE Transactions on
Publisher
ieee
ISSN
0018-926X
Type
jour
DOI
10.1109/TAP.1980.1142433
Filename
1142433
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