English

Persistent current in a 2D Josephson junction array wrapped around a cylinder

Superconductivity 2016-10-18 v1

Abstract

We study persistent currents in a Josephson junction array wrapped around a cylinder. The T=0T=0 quantum statistical mechanics of the array is equivalent to the statistical mechanics of a classical xyxy spin system in 2+1 dimensions at the effective temperature T=2JUT^{*}=\sqrt{2JU}, with JJ being the Josephson energy of the junction and UU being the charging energy of the superconducting island. It is investigated analytically and numerically on lattices containing over one million sites. For weak disorder and TJT^{*}\ll J the dependence of the persistent current on disorder and TT^{*} computed numerically agrees quantitatively with the analytical result derived within the spin-wave approximation. The high-TT^{*} and/or strong-disorder behavior is dominated by instantons corresponding to the vortex loops in 2+1 dimensions. The current becomes destroyed completely at the quantum phase transition into the Cooper-pair insulating phase.

Keywords

Cite

@article{arxiv.1605.08451,
  title  = {Persistent current in a 2D Josephson junction array wrapped around a cylinder},
  author = {D. A. Garanin and E. M. Chudnovsky},
  journal= {arXiv preprint arXiv:1605.08451},
  year   = {2016}
}

Comments

6 pages, 5 figures

R2 v1 2026-06-22T14:10:40.949Z