The BCS-like gap in superconductor SmFeAsO0.85F0.15

Abstract

Since the discovery of superconductivity in the cuprates two decades ago, it has been firmly established that the CuO2 plane is consequential for high TC superconductivity and a host of other very unusual properties. A new family of superconductors with the general composition of LaFeAsO(1-x)Fx has recently been discovered but with the conspicuous lacking of the CuO2 planes, thus raising the tantalizing questions of the different pairing mechanisms in these oxypnictide superconductors. Intimately related to pairing in a superconductor are the superconducting gap, its value, structure, and temperature dependence. Here we report the observation of a single gap in the superconductor SmFeAsO0.85F0.15 with TC = 42 K as measured by Andreev spectroscopy. The gap value of 2Delta = 13.34+/-0.3 meV gives 2Delta/kBTC = 3.68, close to the BCS prediction of 3.53. The gap decreases with temperature and vanishes at TC in a manner consistent with the Bardeen-Cooper-Schrieffer (BCS) prediction but dramatically different from that of the pseudogap behavior in the cuprate superconductors. Our results clearly indicate a nodeless gap order parameter, which is nearly isotropic in size across different sections of the Fermi surface, and are not compatible with models involving antiferromagnetic fluctuations, strong correlations, t-J model, and the like, originally designed for cuprates.