Re−Ni2B2C superconducting borocarbides: “In situ” growth of thin films, transport and point contact spectroscopy

Abstract

High quality c-axis oriented films of the intriguing intermetallic superconducting compound YNi2B2C have been obtained “in situ” by magnetron sputtering on MgO substrates held at about 800°C. The films showed maximum Tc=15.3 K, †Tc≈0.1 K, room temperature resistivity ρ≈50μΩ·cm, critical current Jc≈105 A/cm2 and Bc2≈6 T. Superconducting films were also obtained on Al2O3 and LaAlO3 single-crystal substrates. From the ρ(T) dependence a value of the Debye temperature ΘD=330±20 K can be deduced. At low temperatures the resistivity follows a quadratic power law possibly indicative of a high value of the electron-phonon interaction parameter λ. In order to clarify the role of λ in these compounds, point contact spectroscopy measurements have been performed on YNi2B2C and HoNi2B2C bulk samples prepared by inductive melting using a Low Temperature Scanning Tunneling Microscope (LTSTM). In the point contact regime clear evidence of a superconducting gap have been found in both compounds, corresponding to a moderate strong coupling behaviour (2†/KTc≈3.8).