Title :
Surface-ray tracing on hybrid surfaces of revolution for UTD mutual coupling analysis
Author :
Jha, R.H. ; Mahapatra, Pravas R. ; Wiesbeck, Werner
Author_Institution :
Inst. for High-Frequency Tech. & Electron., Karlsruhe Univ., Germany
fDate :
8/1/1994 12:00:00 AM
Abstract :
An angle invariance property based on Hertz´s principle of particle dynamics is employed to facilitate the surface-ray tracing on nondevelopable hybrid quadric surfaces of revolution (h-QUASOR´s). This property, when used in conjunction with a geodesic constant method, yields analytical expressions for all the ray-parameters required in the UTD formulation. Differential geometrical considerations require that some of the ray-parameters (defined heuristically in the UTD for the canonical convex surfaces) be modified before the UTD can be applied to such hybrid surfaces. Mutual coupling results for finite-dimensional slots have been presented as an example on a satellite launch vehicle modeled by general paraboloid of revolution and right circular cylinder
Keywords :
antenna arrays; artificial satellites; differential geometry; electromagnetic wave diffraction; electromagnetic wave scattering; satellite antennas; Hertz´s principle; UTD; angle invariance property; antenna arrays; canonical convex surfaces; differential geometry; finite-dimensional slots; geodesic constant method; hybrid quadric surfaces of revolution; mutual coupling analysis; paraboloid of revolution; particle dynamics; ray-parameters; right circular cylinder; satellite launch vehicle; surface-ray tracing; Aerodynamics; Aerospace electronics; Antenna arrays; Engine cylinders; Equations; Mutual coupling; Rockets; Satellites; Surface treatment; Vehicle dynamics;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
