Andreev Reflection without Fermi surface alignment in High Tc-Topological heterostructures

Abstract

We address the controversy over the proximity effect between topological materials and high Tc superconductors. Junctions are produced between Bi2Sr2CaCu2O8+δ and materials with different Fermi surfaces (Bi2Te3 \& graphite). Both cases reveal tunneling spectra consistent with Andreev reflection. This is confirmed by magnetic field that shifts features via the Doppler effect. This is modeled with a single parameter that accounts for tunneling into a screening supercurrent. Thus the tunneling involves Cooper pairs crossing the heterostructure, showing the Fermi surface mis-match does not hinder the ability to form transparent interfaces, which is accounted for by the extended Brillouin zone and different lattice symmetries.