Title :
Generalized Array Factor Approach to the Assessment of Discrete Tapered Nonuniform Leaky-Wave Antenna
Author :
Rance, Olivier ; Lemai?Œâ€?tre-Auger, Pierre ; Siragusa, Romain ; Perret, Etienne
Author_Institution :
Lab. de Conception et d´Integration des Sysωmes, Grenoble Inst. of Technol., Valence, France
Abstract :
A generalization of the array factor approach of a nonuniform leaky-wave antenna (LWA) is proposed for the modeling of discrete tapered LWAs. The demonstration is based on the Fourier transform of the illumination amplitude of an LWA and is thus quite general. This analysis approach can be helpful for design. When it is used in combination with classical taperization techniques, it provides an easy and powerful conception tool. The validity of the method is demonstrated with the Holey and the Honey LWAs. Taylor and cosine distributions were simulated and sidelobe level reduction up to -40 dB were obtained. A Holey antenna designed to work at 1.7 GHz with a cosine distribution was realized. Its radiation pattern was measured and it shows an acceptable agreement with theory and numerical simulations.
Keywords :
Fourier transforms; antenna radiation patterns; interference suppression; leaky wave antennas; statistical distributions; Fourier transform; Holey LWA; Honey LWA; Taylor distribution; antenna radiation pattern; cosine distribution; discrete tapered LWA; discrete tapered nonuniform leaky wave antenna; frequency 1.7 GHz; generalized array factor approach; illumination amplitude; sidelobe level reduction; taperization technique; Antenna radiation patterns; Arrays; Attenuation; Lighting; Mathematical model; Periodic structures; Array factor (AF); Holey antenna; Honey antenna; array factor; discrete antenna; non-uniform leaky-wave antenna; nonuniform leaky-wave antenna; sidelobe level minimization;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2015.2444440
