Detecting vortices in superconductors: extracting one-dimensional topological singularities from a discretized complex scalar field

Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics
Carolyn L PhillipsAndreas Glatz

Abstract

In type II superconductors, the dynamics of superconducting vortices determine their transport properties. In the Ginzburg-Landau theory, vortices correspond to topological defects in the complex order parameter. Extracting their precise positions and motion from discretized numerical simulation data is an important, but challenging, task. In the past, vortices have mostly been detected by analyzing the magnitude of the complex scalar field representing the order parameter and visualized by corresponding contour plots and isosurfaces. However, these methods, primarily used for small-scale simulations, blur the fine details of the vortices, scale poorly to large-scale simulations, and do not easily enable isolating and tracking individual vortices. Here we present a method for exactly finding the vortex core lines from a complex order parameter field. With this method, vortices can be easily described at a resolution even finer than the mesh itself. The precise determination of the vortex cores allows the interplay of the vortices inside a model superconductor to be visualized in higher resolution than has previously been possible. By representing the field as the set of vortices, this method also massively reduces the data foot...Continue Reading

References

Aug 30, 1993·Physical Review Letters·J Koplik, H Levine
Nov 13, 2004·Nature·Jonathan LeachMiles J Padgett
Apr 12, 2006·Physical Review Letters·Santiago MadrugaWerner Pesch

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Citations

Nov 4, 2015·IEEE Transactions on Visualization and Computer Graphics·Hanqi GuoAndreas Glatz
Feb 17, 2018·Physical Review. E·Leopoldo R GómezJosé Lorenzana
Oct 19, 2016·Reports on Progress in Physics·Wai-Kwong KwokGeorge W Crabtree

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