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Bound vortex dipoles generated at pinning centres by Meissner current

Author

Listed:
  • Jun-Yi Ge

    (Institute for Nanoscale Physics and Chemistry (INPAC))

  • Joffre Gutierrez

    (Institute for Nanoscale Physics and Chemistry (INPAC))

  • Vladimir N. Gladilin

    (Institute for Nanoscale Physics and Chemistry (INPAC)
    Theory of Quantum and Complex Systems (TQC), Universiteit Antwerpen)

  • Jozef T. Devreese

    (Theory of Quantum and Complex Systems (TQC), Universiteit Antwerpen)

  • Victor V. Moshchalkov

    (Institute for Nanoscale Physics and Chemistry (INPAC))

Abstract

One of the phenomena that make superconductors unique materials is the Meissner-Ochsenfeld effect. This effect results in a state in which an applied magnetic field is expelled from the bulk of the material because of the circulation near its surface of resistance-free currents, also known as Meissner currents. Notwithstanding the intense research on the Meissner state, local fields due to the interaction of Meissner currents with pinning centres have not received much attention. Here we report that the Meissner currents, when flowing through an area containing a pinning centre, generate in its vicinity two opposite sense current half-loops producing a bound vortex–antivortex pair, which eventually may transform into a fully developed vortex–antivortex pair ultimately separated in space. The generation of such vortex dipoles by Meissner currents is not restricted to superconductors; similar topological excitations may be present in other systems with Meissner-like phases.

Suggested Citation

  • Jun-Yi Ge & Joffre Gutierrez & Vladimir N. Gladilin & Jozef T. Devreese & Victor V. Moshchalkov, 2015. "Bound vortex dipoles generated at pinning centres by Meissner current," Nature Communications, Nature, vol. 6(1), pages 1-8, May.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms7573
    DOI: 10.1038/ncomms7573
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