Coexistence Of Static Magnetism And Superconductivity In Smfeaso_(1-x)f_xas Revealed By Muon Spin Rotation

摘要

The recent observation of superconductivity with critical temperatures (T_c) up to 55 K in the pnictide RFeAsO_(1-x)F_x, where R is a lanthanide, marks the first discovery of a non-copper-oxide-based layered high-T_c superconductor. It has raised the suspicion that these new materials share a similar pairing mechanism to the cuprate superconductors, as both families exhibit superconductivity following charge doping of a magnetic parent material. In this context, it is important to follow the evolution of the microscopic magnetic properties of the pnictides with doping and hence to determine whether magnetic correlations coexist with superconductivity. Here, we present a muon spin rotation study on SmFeAsO_(1-x)F_x, with x = 0-0.30 that shows that, as in the cuprates, static magnetism persists well into the superconducting regime. This analogy is quite surprising as the parent compounds of the two families have rather different magnetic ground states: itinerant spin density wave for the pnictides contrasted with the Mott-Hubbard insulator in the cuprates. Our findings therefore suggest that the proximity to magnetic order and associated soft magnetic fluctuations, rather than strong electronic correlations in the vicinity of a Mott-Hubbard transition, may be the key ingredients of high-T_c superconductors.