Fluctuation conductivity and possible pseudogap state in FeAs-based superconductor EuFeAsO(0.85)F(0.15)

Abstract

The study of excess conductivity σ'(T) in the textured polycrystalline FeAs-based superconductor EuFeAsO0.85F0.15 (Tc = 11\, K) prepared by the solid state synthesis is reported. The σ'(T) analysis has been performed within the Local Pair (LP) model based on the assumption of the LP formation in cuprate high-Tc superconductors (cuprates) below the pseudogap (PG) temperature T* Tc. Similarly to the cuprates, near Tc σ'(T) is adequately described by the 3D term of the Aslamasov-Larkin (AL) theory but the range of the 3D-AL fluctuations, T3D, is relatively short. Above the crossover temperature T0 ≈ 11.7\,K σ'(T) is described by the 2D Maki-Thompson (MT) fluctuation term of the Hikami-Larkin (HL) theory. But enhanced 2D-MT fluctuation contribution, being typical for the magnetic superconductors, is observed. Within the LP model approach the PG parameter, *(T), was determined for the first time. *(T) shows the narrow maximum at Ts ≈ 160\,K followed by the linear drop down to TSDW=TNFe≈ 133\,K. Both small T3D and enhanced σ'(T), including linear *(T) drop, are considered to be the evidence of the enhanced magnetic interaction in EuFeAsO0.85F0.15. Importantly, the slop of the linear *(T) and its length are found to be the same as observed for SmFeAsO0.85. The results suggest both the similarity of magnetic interaction processes in different Fe-pnictides and applicability of the LP model approach to the σ'(T) analysis even in magnetic superconductors.