Title :
Null Forming in Circularly Polarized Antenna Patterns Using Reactive Loading of Multi-Arm Archimedean Spiral Antenna
Author :
Kunysz, Waldemar ; Okoniewski, Michal ; Johnston, Ronald H.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Calgary, Calgary, AB, Canada
Abstract :
A multi-arm spiral antenna, of N arms, can have N modes of operation. The integer n represents the operating mode which is determined by the signal phase increment between adjacent arms as fed from the antenna terminals. For the antenna to radiate effectively, the active region must be enclosed by a circumference of mode number (n) times the operating wavelength. Each mode generates a different radiation pattern. Modes, with n between 2 and N-2, are capable of forming radiation pattern nulls. This paper shows a way to excite noninteger modes along with integer modes of radiation, which combined, can create a null which can be steered away from the antenna vertical bore sight. Furthermore, variable reactive loading of spiral arm ends offers additional steering control and positioning of nulls in a 2D angular hemispherical space.
Keywords :
antenna radiation patterns; spiral antennas; 2D angular hemispherical space; active region; antenna radiation pattern; antenna terminals; antenna vertical bore sight; circularly polarized antenna patterns; integer modes; multiarm Archimedean spiral antenna; noninteger modes; null positioning; null steering control; radiation pattern null forming; signal phase; variable reactive loading; Antenna radiation patterns; Arrays; Cavity resonators; Loaded antennas; Loading; Spirals; Active region; Archimedean spiral; multi-arm; nulls in circularly polarized patterns; reactive loading; spiral arm; spiral array;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2014.2354674
