Anisotropic superconducting gap probed by 125Te NMR in noncentrosymmetric Sc6MTe2 (M = Fe, Co)

Abstract

The superconducting gap symmetry is investigated by 125Te NMR measurements on Sc6MTe2 (M = Fe, Co) without spatial inversion symmetry. The spin susceptibility obtained from the Knight shift K is suppressed below the superconducting transition temperature, while leaving a finite value down to the lowest temperature ( 0.4 K). The nuclear spin-lattice relaxation rate 1/T1 follows a power law against temperature T without showing a coherence peak characteristic of the isotropic gap. The result implies a pairing admixture or a residual density of states under magnetic field. The normal metallic state has a Korringa scaling relation between 1/T1T and the Knight shift, reflecting a weak electron correlation.