Andreev-reflection spectroscopy with superconducting indium - a case study
Abstract
We have investigated Andreev reflection at interfaces between superconducting indium (T_c = 3.4 K) and several normal conducting non-magnetic metals (palladium, platinum, and silver) down to T = 0.1 K as well as zinc (T_c = 0.87 K) in its normal state at T = 2.5 K. We analysed the point-contact spectra with the modified one-dimensional BTK theory valid for ballistic transport. It includes Dynes' quasi-particle lifetime as fitting parameter Gamma in addition to superconducting energy gap 2Delta and strength Z of the interface barrier. For contact areas from less than 1 nm^2 to 10000 nm^2 the BTK Z-parameter was close to 0.5, corresponding to transmission coefficients of about 80%, independent of the normal metal. The Z-parameter varies by less than +/-0.1 around its average value, indicating that the interfaces have a negligible dielectric tunneling barrier. Also Fermi surface mismatch does not account for the observed Z. The extracted value Z approx 0.5 can be explained by assuming that practically all of our point contacts are in the diffusive regime.
Cite
@article{arxiv.1211.4084,
title = {Andreev-reflection spectroscopy with superconducting indium - a case study},
author = {Kurt Gloos and Elina Tuuli},
journal= {arXiv preprint arXiv:1211.4084},
year = {2015}
}
Comments
24 pages, 11 figures. Submitted to Low Temperature Physics (Fizika Nizkikh Temperatur)