Superconducting properties of Nb0.85Sc0.15 film deposited by magnetron co-sputtering

Abstract

The technology has been developed for synthesizing Nb1-xScx films using magnetron co-sputtering from Nb and Sc targets. The material synthesis was accompanied by structural characterization using X-ray diffraction and X-ray reflectometry methods, which enabled the determination of thickness, phase composition and crystal structure. We also analyzed the superconducting properties. The critical temperature Tc was measured for samples with different concentarions of Sc and Nb. The maximum value of Tc equal to 6.35 K was observed for sample with a scandium content of approximately 15 %, which was determined by Auger spectroscopy. Transport and magnetoresistive measurements were performed in microbridges with length of 50 μm, width of 2 μm, and thickness of 30 nm. The critical current density was as high as 2.5 MA/cm2. Magnetic measurements were performed with the field oriented perpendicular to the sample. The upper critical field Hc2(0) = 3.2 T, electron diffusion coefficient D = 1.1 cm2/s, and coherence length ξGL = 10.1 nm. The synthesized Nb1-xScx intermetallic compound shows promise for various functional cryogenic electronics devices. NbSc; superconductor; microbridge