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Dynamical phase transition in two-dimensional fully frustrated Josephson junction arrays with resistively shunted junction dynamics

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  • M.-B. Luo
  • Q.-H. Chen

Abstract

The dynamical phase transitions in two-dimensional fully frustrated Josephson junction arrays at zero temperature are investigated numerically with the resistively shunted junction model through the fluctuating twist boundary condition. The model is subjected to a driving current with nonzero orthogonal components i x , i y parallel to both axes of the square lattice. We find a roughly lattice size independent phase diagram with three dynamical phases: a pinned vortex lattice phase, a moving vortex lattice phase and a moving plastic phase. The phase diagram shows a direct transition from the pinned vortex to the moving vortex phase and the separation of the pinned vortex and the moving plastic phases. The time-dependent voltages v x and v y are periodic in the moving vortex lattice phase. But they are aperiodic in the moving plastic phase, resulting in non-monotonic characteristics and hysteresis in the current-voltage curves. It is found that the characteristic frequency is twice the time-averaged voltage in the moving vortex phase and around the time-averaged voltage in the plastic flow regime. Copyright Springer-Verlag Berlin/Heidelberg 2003

Suggested Citation

  • M.-B. Luo & Q.-H. Chen, 2003. "Dynamical phase transition in two-dimensional fully frustrated Josephson junction arrays with resistively shunted junction dynamics," The European Physical Journal B: Condensed Matter and Complex Systems, Springer;EDP Sciences, vol. 35(2), pages 201-207, September.
    • Handle: RePEc:spr:eurphb:v:35:y:2003:i:2:p:201-207
    DOI: 10.1140/epjb/e2003-00269-1
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