Interference-induced surface superconductivity: Enhancement by tuning the Debye energy

Abstract: In the usual perception, surface superconductivity is associated with the surface nucleation of a superconducting condensate above the upper critical field in type-II superconductors or with a rearrangement of phonon properties and the electron-phonon coupling near surfaces/interfaces. Recently, it has been found that there is another example when the surface superconducting temperature is increased up to 20-25% as compared to the bulk one due to constructive interference of superconducting pair states. In the… Show more

“…For r s ≳ 3.5 the dependence of the surface ordering effect on the coupling g and on the Debye window ϵ D ≡ ℏω D is also of importance. 60 According to how the system temperature ratio responds to a change in the coupling constant, two trends can be distinguished. In the case of a narrow Debye window, an Moreover, the growth is enhanced at lower densities beyond the minimum point.…”

Effect of Material-Dependent Boundaries on the Interference Induced Enhancement of the Surface Superconductivity Temperature

“…For r s ≳ 3.5 the dependence of the surface ordering effect on the coupling g and on the Debye window ϵ D ≡ ℏω D is also of importance. 60 According to how the system temperature ratio responds to a change in the coupling constant, two trends can be distinguished. In the case of a narrow Debye window, an Moreover, the growth is enhanced at lower densities beyond the minimum point.…”

Effect of Material-Dependent Boundaries on the Interference Induced Enhancement of the Surface Superconductivity Temperature

Surface superconductor-insulator transition: Reduction of the critical electric field by Hartree-Fock potential

Surface superconductor-insulator transition induced by electric field