English

Bowstring effect as a trigger for flux instabilities in thin superconductors

Superconductivity 2023-08-21 v1

Abstract

Magnetic vortices resemble bowstrings stretched across a corner at the initial stage of their penetration into a flat superconducting sample of a rectangular cross-section. As the external magnetic field HeH_e reaches the threshold level HthH_{th}, a bowstring is "released" and instantaneously contracted in length with a substantial heat generation. This heat can serve as a trigger for nucleation of a flux instability (avalanche). At He2HthH_e \approx \sqrt{2}H_{th} a usual vortex penetration starts at flat edges, and the bowstring mechanism is no longer effective. We describe the geometry of bowstring-like vortices, find HthH_{th} for disk and strip shaped superconductors as a function of their thickness to width ratio, and determine the heat effect related to a bowstring release. Our results enable a novel treatment of numerous experimental data on flux instabilities and avalanche type penetration in flat superconducting samples. A moderate anisotropy of a superconducting penetration depth (λc>λab\lambda_c > \lambda_{ab}) diminishes or even completely removes the bowstring effect. This explains the absence of spontaneous instabilities in epitaxial YBa2Cu3O7δ\mathrm{YBa}_{2}\mathrm{Cu}_{3}\mathrm{O}_{7-\delta } films at all temperatures and in MgB2\mathrm{MgB_{2}} above 10 K.

Keywords

Cite

@article{arxiv.2308.09136,
  title  = {Bowstring effect as a trigger for flux instabilities in thin superconductors},
  author = {Leonid Burlachkov and Nikita Fuzailov},
  journal= {arXiv preprint arXiv:2308.09136},
  year   = {2023}
}
R2 v1 2026-06-28T11:58:11.214Z