Title :
Q Bounds for Arbitrary Small Antennas: A Circuit Approach
Author :
Thal, Herbert L., Jr.
Author_Institution :
Wayne,
fDate :
7/1/2012 12:00:00 AM
Abstract :
Circuit models for the lowest-order modes radiating from within an arbitrarily-shaped envelope have been developed based on the exact circuits for spherical modes and the radar scattering from a conductor of the arbitrary shape. These circuits predict lower bounds on the Q of small antennas with any combination of coupling between modes. Circuit parameters are tabulated for a range of shapes, and the procedure for computing parameters for other shapes is explained. The bounds on a small circularly-polarized cylindrical antenna illustrate an application. Predictions for scattering by the arbitrary envelope filled with a high μ or ε material serve to validate the procedure.
Keywords :
Q-factor; conductors (electric); electromagnetic wave scattering; radar antennas; Q factor; Q-bounds; arbitrarily-shaped envelope; arbitrary shape; arbitrary small antennas; circuit approach; circuit models; circuit parameters; conductor; lower bounds; lowest-order modes; radar scattering; small circularly-polarized cylindrical antenna; spherical modes; Antennas; Gain; Integrated circuit modeling; Materials; Scattering; Shape; Wires; Antenna theory; Q factor; Rayleigh scattering; coupled-mode analysis; electrically-small antennas; radar cross sections;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2012.2196920
