Title :
Superconducting electrically-small dipole antenna
Author :
Excell, P.S. ; Alford, N.McN.
Author_Institution :
Bradford Univ., UK
Abstract :
A superconducting electrically-small dipole antenna was constructed and compared with a copper antenna of similar dimensions, both operating at low VHF frequencies. The antennas had lumped inductive loading to ensure that the feeding network was also electrically small. The superconducting antenna was formed from high-Tc ceramic superconductor and was parasitically driven in order to avoid problems of electrical (YBa2Cu3Ox) contact to this material. Both antennas were tested by immersion in a bath of liquid nitrogen in an electromagnetically-transparent container. The superconducting antenna achieved a higher Q-factor than the copper equivalent, the Q-factors being about half the values expected from simple theory. The efficiency of the superconducting antenna was also deduced to be about double that of the copper antenna
Keywords :
dipole antennas; electronic equipment testing; high-temperature superconductors; superconducting devices; Q-factor; YBa2Cu3Ox; copper antenna; efficiency; electrically-small dipole antenna; electromagnetically-transparent container; feeding network; high-Tc ceramic superconductor; high-temperature superconductors; liquid nitrogen; low VHF frequencies; lumped inductive loading; parasitically driven; superconducting antenna;
Conference_Titel :
Antennas and Propagation, 1991. ICAP 91., Seventh International Conference on (IEE)
Conference_Location :
York
Print_ISBN :
0-85296-508-7
