Title :
Effects of a high-impedance screen on a dipole antenna
Author_Institution :
R.C. Hansen Inc., Tarzana, CA, USA
fDate :
6/24/1905 12:00:00 AM
Abstract :
A high-impedance conductor with reflection coefficient magnitude near unity and appropriate phase would allow a parallel dipole to be closely spaced to the screen. Phase is critical; this paper examines the pattern, gain, and impedance properties of a dipole antenna located close to a high-impedance material. The material is idealized with a unity reflection coefficient and a variable phase angle from -/spl pi/ to +/spl pi/. An example uses a half-wave dipole-spaced wavelength from the material. For a phase angle around 135/spl deg/ the pattern is unstable and has a null at broadside. Gain varies from 10 to 0 dB. Input impedance varies widely with phase angle, presenting a mismatch loss situation. From these data an acceptable range of phase angle verses frequency can be inferred.
Keywords :
antenna radiation patterns; dipole antennas; electric impedance; electromagnetic wave reflection; photonic band gap; antenna pattern; backward radiation; broadside directivity; dipole antenna; frequency; gain; half-wave dipole-spaced wavelength; high-impedance conductor; high-impedance material; high-impedance screen; impedance properties; input impedance; magnetic ground plane; mismatch loss; parallel dipole; phase angle; photonic bandgap materials; radiation resistance; reflection coefficient magnitude; variable phase angle; Conducting materials; Dielectric materials; Dipole antennas; Electromagnetic reflection; Frequency; Magnetic materials; Photonic band gap; Reflector antennas; Surface impedance; Surface waves;
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2002.805121
