Title :
Numerical simulation of experimental data from planar SIS mixers with integrated tuning elements
Author :
Mears, C.A. ; Hu, Qing ; Richards, P.L.
Author_Institution :
California Univ., Berkeley, CA, USA
fDate :
3/1/1989 12:00:00 AM
Abstract :
The authors used the full Tucker theory including the quantum susceptance to fit data from planar lithographed millimeter-wave mixers with bow-tie antennas and integrated RF coupling elements. Essentially perfect fits to pumped I-V (current-voltage) curves have been obtained. The deduced imbedding admittances agree well with those dependently calculated from the geometry of the antenna and matching structures. It is found that the quantum susceptance is essential to the fit and thus to predictions of the mixer performance. For junctions with moderately sharp gap structures, the quantum susceptance is especially important in the production of steps with low and/or negative dynamic conductance
Keywords :
mixers (circuits); simulation; solid-state microwave circuits; superconducting junction devices; tuning; MM-wave operation; bow-tie antennas; full Tucker theory; imbedding admittances; integrated RF coupling elements; integrated tuning elements; microwave type; millimeter-wave mixers; mixer performance; negative dynamic conductance; numerical simulation; planar SIS mixers; quantum susceptance; sharp gap structures; superconductor-insulator-superconductor device; Admittance; Chemical elements; Curve fitting; Frequency estimation; Numerical simulation; Physics; Quantum mechanics; Tuning; Tunneling; Voltage;
Journal_Title :
Magnetics, IEEE Transactions on
