Fluxon dynamics in discrete Josephson transmission lines with stacked junctions

1 January 1997

journal article
Published by AIP Publishing in Journal of Applied Physics

Vol. 81 (1) , 309-314
https://doi.org/10.1063/1.364110

Abstract

The experimental and numerical study of parallel one-dimensional arrays consisting of double-layer stacked small Josephson tunnel junctions is reported. In addition to several features already known for classic single-layer arrays, we find a new resonant state which corresponds to the locking of the fluxon oscillations to a frequency of small-amplitude oscillations of the superconducting phase in middle islands of small stacks. Numerical simulations of a simplified circuit agree well with experiments and confirm the suggested qualitative mechanism. In these experiments we find no indication for the so-called multiple-fluxon propagation in double-junction arrays.

This publication has 14 references indexed in Scilit:

Coherent states in a multi-junction superconducting loop
Europhysics Letters, 1996
Static properties and current steps in one-dimensional parallel arrays of Josephson tunnel junctions in the presence of a magnetic field
Journal of Applied Physics, 1996
Phase locking in a multijunction superconducting loop
Applied Physics Letters, 1995
Integrated sub-MM wave receivers
IEEE Transactions on Applied Superconductivity, 1995
Experimental and numerical study of dynamic regimes in a discrete sine-Gordon lattice
Physical Review B, 1995
Dimensional perturbation theory for weakly bound systems
Physical Review A, 1995
Ionization of helium by a short pulse of radiation: A Fermi molecular-dynamics calculation
Physical Review A, 1994
Fluxon dynamics in one-dimensional Josephson-junction arrays
Physical Review B, 1993
PSCAN: personal superconductor circuit analyser
Superconductor Science and Technology, 1991
RSFQ logic/memory family: a new Josephson-junction technology for sub-terahertz-clock-frequency digital systems
IEEE Transactions on Applied Superconductivity, 1991