论文信息 - Thermal noise induced switching of Josephson logic devices

Thermal noise induced switching of Josephson logic devices

Thermal noise induced switching of Josephson logic devices is studied, both theoretically and experimentally. The results are critical for the design of the operating bias points for these devices. An analysis of the relevant energy contours shows that a three‐junction superconducting quantum interference device has the same noise switching rate as a point junction with the same maximum critical current. Experimental results, for the dependence of the thermal noise induced switching rate on the gate current bias ratio, are in very good agreement with the theory.

A. Mukherjee | M. Klein

[1] H. H. Zappe,et al. Analysis of resonance phenomena in Josephson interferometer devices , 1978 .

[2] P. Lee. EFFECT OF NOISE ON THE CURRENT--VOLTAGE CHARACTERISTICS OF A JOSEPHSON JUNCTION. , 1971 .

[3] T. Fulton,et al. Lifetime of the zero-voltage state in Josephson tunnel junctions , 1974 .

[4] T. R. Gheewala,et al. Design of 2.5-Micrometer Josephson Current Injection Logic (CIL) , 1980, IBM J. Res. Dev..

[5] C. J. Kircher,et al. Fabrication Process for Josephson Integrated Circuits , 1980, IBM J. Res. Dev..

[6] W. Anacker,et al. Josephson Computer Technology: An IBM Research Project , 1980, IBM J. Res. Dev..

[7] D. Herrell,et al. Regulated AC power for Josephson interferometer latching logic circuits , 1979 .

[8] C. Tesche. A thermal activation model for noise in the dc SQUID , 1981 .