Title :
Optimizing double-sideband SIS quasiparticle mixers
Author :
Woody, David P. ; Wengler, Michael J.
Author_Institution :
Owens Valley Radio Obs., California Inst. of Technol., Big Pine, CA, USA
fDate :
3/1/1991 12:00:00 AM
Abstract :
Calculations based on the quantum theory of mixing in single-particle tunnel junctions show that there is a fairly simple strategy for optimizing the performance of double-sideband superconductor-insulator-superconductor (SIS) quasiparticle mixers. The best mixer noise temperature is obtained when the signal source is matched to the local oscillator (LO) admittance of the junction. This applies over a very wide range of LO and DC bias conditions. These calculations support the contention that it is the energy dissipation in the device which is important in determining the noise performance, not the small signal admittance or the power gain. This appears to be another demonstration of the Callen and Welton fluctuation-dissipation theorem. which states that it is the dissipation of energy which is responsible for the noise generation in a wide range of devices, and it is this energy dissipation mechanism to which the signal should be coupled to minimize the noise
Keywords :
electron device noise; mixers (circuits); solid-state microwave circuits; superconducting junction devices; Callen and Welton fluctuation-dissipation theorem; double-sideband SIS quasiparticle mixers; energy dissipation; local oscillator; mixer noise temperature; noise performance; quantum theory; signal source; single-particle tunnel junctions; superconductor-insulator-superconductor; Admittance; Energy dissipation; Josephson junctions; Local oscillators; Noise generators; Performance gain; Quantum mechanics; Superconducting device noise; Superconducting devices; Temperature;
Journal_Title :
Magnetics, IEEE Transactions on
