Title :
A RF superconducting electromechanical transducer for gravitational wave antennae
Author :
Bocko, Mark F. ; Johnson, Warren W. ; Iafolla, Valerio
Author_Institution :
Dept. of Electr. Eng., Rochester Univ., NY, USA
fDate :
3/1/1989 12:00:00 AM
Abstract :
An electromechanical transducer based on a superconducting radiofrequency bridge circuit has been developed for use on a gravitational radiation detector. The low electrical loss of superconductors has made it possible to achieve electrical quality factors of several thousand in a lumped-element circuit which operates at 4 MHz. The bridge could be remotely balanced to one part in 50000, which led to a displacement noise level of 10-15 m/√Hz. It should be useful in measuring any physical quantity which can be made to change a capacitance. At the present stage of development, capacitance changes of 10-20 F could be detected in a 1-s integration time. One straightforward improvement, namely, the use of a low-phase-noise quartz crystal oscillator as the bridge excitation source will reduce the noise to 10-17 m/√Hz
Keywords :
astronomical instruments; bridge circuits; gravitational experiments; gravitational waves; radiation detection and measurement; superconducting devices; transducers; RF type; astronomy; bridge excitation source; capacitance changes; electromechanical transducer; gravitational radiation; gravitational radiation detector; gravitational wave antennae; low-phase-noise; lumped-element circuit; quartz crystal oscillator; superconducting radiofrequency bridge circuit; Bridge circuits; Capacitance measurement; Integrated circuit measurements; Noise level; Oscillators; Q factor; Radiation detector circuits; Radio frequency; Superconductivity; Transducers;
Journal_Title :
Magnetics, IEEE Transactions on
