Title :
Anomalously large Josephson switching currents in low dissipation Josephson junctions
Author :
Tesche, C.D. ; Kirtley, J.R. ; Gallagher, W.J. ; Kleinsasser, A.W. ; Sandstrom, Robert L. ; Raider, S.I.
Author_Institution :
IBM Thomas J. Watson Res. Div., Yorktown Heights, NY, USA
fDate :
3/1/1989 12:00:00 AM
Abstract :
The authors observed marked effects on the switching characteristics of a high-quality junction due to the frequency dependence of the external circuitry. This involved anomalously high values of the maximum switching current of Josephson junctions at temperatures where thermally activated switching was expected to greatly lower it. This effect was modeled by evaluating junction parameters from the measured characteristics. The junction resistance determined from the return switching current is that of a nearly ideal quasiparticle tunneling resistance, increasing exponentially fast at low temperatures. As a result, the load resistance becomes dominant over a wide range of temperatures. The frequency dependence of this load resistance then produces the anomalously large Josephson switching currents, which have not been observed previously in junctions with significant normal conductance
Keywords :
Josephson effect; modelling; superconducting junction devices; switching; Josephson junctions; anomalously high values; external circuitry; frequency dependence; high-quality junction; junction parameters; junction resistance; load resistance; low dissipation junctions; maximum switching current; model; nearly ideal quasiparticle tunneling resistance; superconducting junctions; switching characteristics; thermally activated switching; Batteries; Circuits; Current density; Frequency dependence; Josephson junctions; Magnetic shielding; Packaging; Quantum mechanics; Temperature; Threshold voltage;
Journal_Title :
Magnetics, IEEE Transactions on
