Abrikosov vortex corrections to effective magnetic field enhancement in epitaxial graphene
Journal
Physical Review B
Journal Volume
104
Journal Issue
8
Date Issued
2021
Author(s)
St. Marie L.R
Liu C.-I
Hu I.-F
Hill H.M
Saha D
Elmquist R.E
Newell D.B
Barbara P
Hagmann J.A
Rigosi A.F.
Abstract
Here, we report the effects of enhanced magnetic fields resulting from type-II superconducting NbTiN slabs adjacent to narrow Hall bar devices fabricated from epitaxial graphene. Observed changes in the magnetoresistances were found to have minimal contributions from device inhomogeneities, magnet hysteresis, electron density variations along the devices, and transient phenomena. We hypothesize that Abrikosov vortices, present in type-II superconductors, contribute to these observations. By determining the London penetration depth, coupled with elements of Ginzburg-Landau theory, one can approximate an upper bound on the effect that vortex densities at low fields (<1T) have on the reported observations. These analyses offer insights into device fabrication and how to utilize the Meissner effect for any low-field and low-temperature applications using superconductors. ? 2021 American Physical Society.
Subjects
Graphene; Low temperature effects; Magnetic fields; Niobium compounds; Superconducting devices; Superconducting materials; Temperature; Titanium compounds; Abrikosov vortices; Device fabrications; Ginzburg Landau theory; London penetration depth; Low-temperature applications; Magnetic field enhancements; Transient phenomenon; Type II superconductors; Vortex flow
Type
journal article