Title :
Fabrication and characterization of all-refractory NbCN/Al/AlO/sub x//Al/Nb junctions
Author :
Barber, Z.H. ; Blamire, M.G. ; Somekh, R.E. ; Evetts, J.E.
Author_Institution :
Dept. of Mater. Sci. & Metall., Cambridge Univ., UK
fDate :
3/1/1993 12:00:00 AM
Abstract :
High-quality AlO/sub x/ tunnel barriers have been fabricated on epitaxial niobium carbonitride (NbCN) base layers by the deposition of an Al layer followed by thermal oxidation. By careful control of its uniformity, the thickness of the Al layer has been reduced to less than 3 nm, which results in an average gap voltage, V/sub g/(NbCN), of up to 2.65 mV. Using a self-aligned whole-wafer processing route, high-quality NbCN/Al/AlO/sub x//Al/Nb junctions as small as 0.6 mu m/sup 2/ have been made. These junctions offer considerable advantages over directly deposited barriers in terms of minimal subgap leakage, good control of the barrier conductance, and simple processing procedures. It was shown that submicron junctions can be fabricated with no gap smearing or reduction in quality. Using only Nb counterelectrodes total gap voltages up to 4.0 mV, with widths of 0.6 mV, have been demonstrated in high-quality junctions.<>
Keywords :
Josephson effect; aluminium; aluminium compounds; niobium; niobium compounds; oxidation; superconducting epitaxial layers; superconducting junction devices; type II superconductors; 2.65 mV; 4 mV; Al layer; AlO/sub x/ tunnel barriers; Josephson junctions; NbCN-Al-AlO/sub x/-Al-Nb junction; all-refractory; average gap voltage; barrier conductance; epitaxial NbCN layers; fabrication; minimal subgap leakage; self-aligned whole-wafer processing; submicron junctions; superconducting junctions; thermal oxidation; total gap voltages; Degradation; Electrodes; Fabrication; Josephson junctions; Niobium; Plasma temperature; Substrates; Superconducting epitaxial layers; Superconducting films; Superconducting transition temperature;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
