Title :
Theory of phase locking in simple two-dimensional Josephson junction arrays with small inductances
Author :
Basler, M. ; Krech, W. ; Platov, K.Yu.
Author_Institution :
Friedrich-Schiller-Univ., Jena, Germany
fDate :
6/1/1997 12:00:00 AM
Abstract :
Several elementary two-dimensional Josephson junction arrays have been investigated mainly analytically with the special emphasis on phase locking. For this purpose, a novel perturbation scheme appropriate for the handling of small loop inductances has been developed and applied to (i) a single SQUID cell, (ii) two cells coupled by an inductive line, and (iii) an externally loaded two-cell configuration with more general internal shunt. While internal in-phase locking within the cells can easily be achieved as long as the normalized ring inductances are small compared to unity, the inter-cell coupling tends to favor an antiphase regime. A mechanism is proposed for circumventing this problem and the boundaries separating both regimes are determined. The influence of an external load is considered as well.
Keywords :
Josephson effect; SQUIDs; inductance; perturbation techniques; phase control; 2D Josephson junction arrays; antiphase regime; coupled SQUID cells; external load; externally loaded two-cell configuration; inductive line coupling; inter-cell coupling; internal in-phase locking; internal shunt; loop inductances; normalized ring inductances; perturbation scheme; phase locking; single SQUID cell; Capacitance; Coupling circuits; Hybrid junctions; Inductance; Josephson junctions; Microwave antenna arrays; Microwave circuits; Numerical simulation; Phased arrays; SQUIDs;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
