Local spin fluctuations in iron-based superconductors: 77Se and 87Rb NMR measurements of Tl0.47Rb0.34Fe1.63Se2

Abstract

We report nuclear magnetic resonance (NMR) studies of the intercalated iron selenide superconductor (Tl, Rb)yFe2-xSe2 (Tc = 32 K). Single-crystal measurements up to 480 K on both 77Se and 87Rb nuclei show a superconducting phase with no magnetic order. The Knight shifts K and relaxation rates 1/T1T increase very strongly with temperature above Tc, before flattening at 400 K. The quadratic T-dependence and perfect proportionality of both K and 1/T1T data demonstrate their origin in paramagnetic moments. A minimal model for this pseudogap-like response is not a missing density of states but two additive contributions from the itinerant electronic and local magnetic components, a framework unifying the K and 1/T1 T data in many iron-based superconductors.