Title :
Modeling of a long Josephson junction coupled to SFQ elements
Author_Institution :
Conductus Inc., Sunnyvale, CA, USA
fDate :
6/1/1999 12:00:00 AM
Abstract :
By combining a long Josephson junction (LJJ) with single-flux-quantum (SFQ) circuits, new digital applications for long junctions can be explored. To fully investigate the dynamics of the hybrid LJJ/SFQ circuits, a numerical model was developed for an unshunted long junction coupled to shunted SFQ Josephson transmission line (JTL) through superconducting strips. The model is based on a one-dimensional array of Josephson junctions that is described by a set of discrete sine-Gordon equations. Simulations support our experimental observation that the first zero-field step can exist when the LJJ is terminated by SFQ elements. The influences on the first zero-field step by the self-inductance, the critical current, and the shunt resistance of JTL cells are studied in detail. Simulation also confirms that each 4/spl pi/ phase leap at the end of the long junction creates two separated SFQ pulses after several overdamped JTL cells.
Keywords :
critical currents; flip-flops; inductance; sine-Gordon equation; solitons; superconducting arrays; superconducting logic circuits; superconducting transmission lines; 4/spl pi/ phase leap; T-flip-flop circuit; coupled to SFQ elements; critical current; digital applications; discrete sine-Gordon equations; first zero-field step; hybrid circuits; long Josephson junction; numerical model; one-dimensional array; overdamped cells; self-inductance; separated SFQ pulses; shunt resistance; shunted SFQ Josephson transmission line; single soliton mode; single-flux-quantum circuits; superconducting strips; unshunted long junction; Clocks; Coupling circuits; Critical current; Frequency; Josephson junctions; Microwave oscillators; Solitons; Superconducting devices; Superconducting transmission lines; Voltage;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
