González, J.; González, J.; Durán, F.; Salas, C.; Gómez, J. Effect of the Spatially-Varied Electron Mean Free Path on Vortex Matter in a Superconducting Pb Island Grown on Si (111). Condens. Matter2023, 8, 77.
González, J.; González, J.; Durán, F.; Salas, C.; Gómez, J. Effect of the Spatially-Varied Electron Mean Free Path on Vortex Matter in a Superconducting Pb Island Grown on Si (111). Condens. Matter 2023, 8, 77.
González, J.; González, J.; Durán, F.; Salas, C.; Gómez, J. Effect of the Spatially-Varied Electron Mean Free Path on Vortex Matter in a Superconducting Pb Island Grown on Si (111). Condens. Matter2023, 8, 77.
González, J.; González, J.; Durán, F.; Salas, C.; Gómez, J. Effect of the Spatially-Varied Electron Mean Free Path on Vortex Matter in a Superconducting Pb Island Grown on Si (111). Condens. Matter 2023, 8, 77.
Abstract
In this work we report recent theoretical calculations of a superconducting island in a strong
vortex confinement regime. The obtained results reveal the evolution of superconducting condensate
as a function of electron mean-free path (l) with the evolution of an applied magnetic field H0. The
results of this study provide an insight about the emergent superconducting properties under such
conditions, using the Ginzburg-Landau numerical simulations where spatial variation of thickness d
on island, omnipresent in these kind of structures grown on Si (111), is taken into account. These
results offer a new route to tailor superconducting circuits by using the controlled bombardment, in
order to explore the impact on vortex distribution, phase of order parameter, number of vortices, free
energy and the first H1 and second critical field H2.
Keywords
Strong vortex confinement; superconductivity; Ginzburg-Landau theory; superconducting island; free energy
Subject
Physical Sciences, Condensed Matter Physics
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.