Nodeless energy gaps of single-crystalline Ba0.68K0.32Fe2As2 as seen via 75As NMR

Abstract

We report 75As nuclear magnetic resonance studies on a very clean hole-doped single-crystal Ba0.68K0.32Fe2As2 (T c=38.5 K). The spin-lattice relaxation rate 1/T1 shows an exponential decrease below T 0.45 T c down to T 0.11 T c, which indicates a fully opened energy gap. From the ratio (T1)c / (T1)a, where a and c denote the crystal directions, we find that the antiferromagnetic spin fluctuation is anisotropic in the spin space above T c. The anisotropy decreases below T c and disappears at T → 0. We argue that the anisotropy stems from spin-orbit coupling whose effect vanishes when spin-singlet electron pairs form with a nodeless gap.