Tuning Vortex Fluctuations and the Resistive Transition in Superconducting Films With a Thin Overlayer

Authors

Alex Gurevich, Old Dominion UniversityFollow

Document Type

Article

Publication Date

2018

DOI

10.1103/PhysRevB.98.024506

Publication Title

Physical Review B

Volume

98

Issue

2

Pages

024506 (17 pp.)

Abstract

It is shown that the temperature of the resistive transition T_r of a superconducting film can be increased by a thin superconducting or normal overlayer. For instance, deposition of a highly conductive thin overlayer onto a dirty superconducting film can give rise to an “antiproximity effect,” which manifests itself in an initial increase of T_r (d₂) with the overlayer thickness d₂ followed by a decrease of T_r (d₂)at larger d₂. Such a nonmonotonic thickness dependence of T_r (d₂) results from the interplay of the increase of a net superfluid density mitigating phase fluctuations and the suppression of the critical temperature T_c due to the conventional proximity effect. This behavior of T_r (d₂) is obtained by solving the Usadel equations to calculate the temperature of the Berezinskii-Kosterlitz-Thouless transition, and the temperature of the resistive transition due to thermally activated hopping of single vortices in dirty bilayers. The theory incorporates relevant material parameters such as thicknesses and conductivities of the layers, the interface contact resistance between them, and the subgap quasiparticle states, which affect both phase fluctuations and the proximity effect suppression of T_c. The transition temperature T_r can be optimized by tuning the overlayer parameters, which can significantly weaken vortex fluctuations and nearly restore the mean-field critical temperature. The calculated behavior of T_r (d₂) may explain the nonmonotonic dependence of T_r (d₂) observed on (Ag,Au,Mg,Zn)-coated Bi films, Ag-coated Ga and Pb films, or NbN and NbTiN films on AlN buffer layers. These results suggest that bilayers can be used as model systems for systematic investigations of optimization of fluctuations in superconductors.

Comments

Article is open access under a Creative Commons Attribution license.

Original Publication Citation

Gurevich, A. (2018). Tuning vortex fluctuations and the resistive transition in superconducting films with a thin overlayer. Physical Review B, 98(2), 024506. doi:10.1103/PhysRevB.98.024506

ORCID

0000-0003-0759-8941 (Gurevich)

Repository Citation

Gurevich, Alex, "Tuning Vortex Fluctuations and the Resistive Transition in Superconducting Films With a Thin Overlayer" (2018). Physics Faculty Publications. 218.
https://digitalcommons.odu.edu/physics_fac_pubs/218