μSR and NMR study of the superconducting Heusler compound YPd2Sn

Abstract

We report on muon spin rotation/relaxation and 119Sn nuclear magnetic resonance (NMR) measurements to study the microscopic superconducting and magnetic properties of the Heusler compound with the highest superconducting transition temperature, \ (Tc=5.4 K). Measurements in the vortex state provide the temperature dependence of the effective magnetic penetration depth λ(T) and the field dependence of the superconducting gap (0). The results are consistent with a very dirty s-wave BCS superconductor with a gap (0)=0.85(3) meV, λ(0)= 212(1) nm, and a Ginzburg-Landau coherence length GL(0) 23 nm. In spite of its very dirty character, the effective density of condensed charge carriers is high compared to the normal state. The data in a broad range of applied fields are well reproduced by taking into account a field-related reduction of the effective superconducting gap. Zero-field measurements, sensitive to the possible presence of very small magnetic moments, do not show any indications of magnetism in this compound.