Unconventional Superconductivity in the Novel Layered Superconductor Fe(Te-Se) Investigated by 125Te NMR on the Single Crystal

Abstract

We have performed 125Te NMR on a single crystal of the novel layered superconductor Fe1.04Te0.67Se0.33 for the first time. The spin parts of the Knight shifts for both H // a, H // c are suppressed in the superconducting state, indicating the spin singlet superconductivity. At superconducting state, 1/T1 shows the power-law behavior ( T3) without any coherent peaks. Observations of the residual density of state and the T3-law indicate the presence of the line node in the superconducting gap. In the normal state, 1/T1T which probes the q-summation of spin fluctuations enhances at low temperatures. Our results suggest that the superconductivity in Fe1+δTe1-xSex is stabilized by the growth of the antiferromagnetic spin fluctuations as well as in FeSe.