Title :
High-Q frequency-temperature compensated sapphire/rutile resonator
Author :
Hartnett, J.G. ; Tobar, M.E. ; Ivanov, E.N. ; Cros, D.
fDate :
4/13/2000 12:00:00 AM
Abstract :
Experimental results for the novel design of a composite sapphire-rutile frequency-temperature compensated resonator are presented. The frequency-temperature dependence was annulled when a specific balance of electric energy in the rutile and sapphire was reached at 56 K in a WGE9,0,0 mode at 13.1 GHz with a Q-factor of 30 million
Keywords :
Q-factor; compensation; cryogenic electronics; dielectric resonators; microwave devices; sapphire; titanium compounds; 13.1 GHz; 56 K; Al2O3-TiO2; Q-factor; SHF; WGE9,0,0 mode; composite sapphire/rutile resonator; frequency-temperature compensated resonator; frequency-temperature dependence; high-Q resonator;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:20000575
