Title :
Ray theory for scattering by two-dimensional quasiperiodic plane finite arrays
Author :
Felsen, Leopold B. ; Ribas, Gago
fDate :
3/1/1996 12:00:00 AM
Abstract :
Many scattering configurations of interest include finite portions with periodic or quasiperiodic features. Several recent investigations have dealt with this problem for the planar two-dimensional case and have developed high-frequency asymptotic solutions that include multibeam reflections obeying the Bragg condition and Bragg-modulated edge diffractions. These constituents have been interpreted as wave objects in a generalized geometrical theory of diffraction (GTD). The present investigation adds to these previous results and formalizes them into a ray theory. This allows the scattered fields due to a finite quasiperiodic array of obstacles, excited by an arbitrary incident field, to be constructed entirely by ray tracing. Scattered ray plots and caustics for various shapings of incident fields and array parameters illustrate the variety of phenomena associated with this class of scattering environments
Keywords :
arrays; electromagnetic fields; electromagnetic wave reflection; electromagnetic wave scattering; geometrical theory of diffraction; ray tracing; Bragg condition; Bragg modulated edge diffractions; GTD; array parameters; caustics; generalized geometrical theory of diffraction; high-frequency asymptotic solutions; incident field; multibeam reflections; obstacles; ray theory; scattered fields; scattered ray plots; scattering configurations; scattering environments; two-dimensional quasiperiodic plane finite arrays; wave objects; Apertures; Geometry; Helium; Optical arrays; Optical scattering; Physical theory of diffraction; Ray tracing; Reflection; Scattering parameters; Solid modeling;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
