Bowstring effect as a trigger for flux instabilities in thin superconductors
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 reaches the threshold level , 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 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 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 () diminishes or even completely removes the bowstring effect. This explains the absence of spontaneous instabilities in epitaxial films at all temperatures and in above 10 K.
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}
}