Superconductivity in amorphous and crystalline Re-Lu films

Abstract

We report on magnetron deposition and superconducting properties of a novel superconducting material: rhenium-lutetium films on sapphire substrates. Different compositions of RexLu binary are explored from x≈ 3.8 to close to pure Re stoichiometry. The highest critical temperature, up to Tc≈ 6.95 K, is obtained for x≈ 10.5. Depending on the deposition conditions, polycrystalline or amorphous films are obtainable, both of which are interesting for practice. Crystalline structure of polycrystalline phase is identified using grazing incidence X-ray diffractometry as a non-centrosymmetric superconductor. Superconducting properties were characterized both resistively and magnetically. Demonstration of superconductivity in this material justifies the point of view that Lu plays a role of group 3 transition metal in period 6 of the Periodic table of elements. In analogy with Re0.82Nb0.18, Re6Ti, Re6Hf and Re6Zr, one can expect that crystalline Re--Lu is also breaking the time-reversal symmetry (this still waits confirmation). Magnetoresistivity and AC/DC susceptibility measurements allowed us to determine Hc1 and Hc2 of these films, as well as estimate coherence length (0) and magnetic penetration depth λ L(0). We also provide information on surface morphology of these films.