Title :
A Gibbsian model for finite scanned arrays
Author :
Hansen, R.C. ; Gammon, Daniel
Author_Institution :
Tarzana, CA, USA
fDate :
2/1/1996 12:00:00 AM
Abstract :
A finite-by-infinite array of thin half-wave dipoles with H-plane scan is used to show the existence of a Gibbs´ phenomenon-type standing wave in scan impedance (normalized by the infinite array value) over the elements of the array. The period of this wave is 0.5λ at broadside for λ/2 array spacing and increases as the scan angle increases by a grating lobe-type expression. A simple empirical model based on Gibbs oscillations is fitted to the scan-impedance wave; the model predicts the 1/(1-sinθ0) period variation, and should be useful for systems trades and for preliminary design purposes
Keywords :
antenna arrays; antenna theory; dipole antenna arrays; electric impedance; oscillations; scanning antennas; Gibbs oscillations; Gibbs´ phenomenon-type standing wave; Gibbsian model; H-plane scan; array spacing; empirical model; finite scanned arrays; finite-by-infinite array; grating lobe-type expression; infinite array; period variation; scan angle; scan impedance; scan-impedance wave; thin half-wave dipoles; wave period; Brain modeling; Computer errors; Convergence; Equations; Gratings; Impedance; Mutual coupling; Phased arrays; Predictive models; Scattering;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
