Full Gap Superconductivity in Ba0.6K0.4Fe2As2 Probed by Muon Spin Rotation

Abstract

Superfluid density (ns) in the mixed state of an iron pnictide superconductor Ba0.6K0.4Fe2As2 is determined by muon spin rotation for a sample with optimal doping (x=0.4). The temperature dependence of ns is perfectly reproduced by the conventional BCS model for s-wave paring, where the order parameter can be either a single-gap with =8.35(6) meV [2/kBTc=5.09(4)], or double-gap structure with 1=12 meV (fixed) [21/kBTc=7.3] and 2=6.8(3) meV [22/kBTc=4.1(2)]. The latter is consistent with the recent result of angle-resolved photo-emssion spectroscopy. The large gap parameters (2/kBTc) indicate extremely strong coupling of carriers to bosons that mediate the Cooper pairing.