Coexistence of low moment magnetism and superconductivity in tetragonal FeS and suppression of Tc under pressure

Abstract

We report local probe (μSR) measurements on the recently discovered tetragonal FeS superconductor which has been predicted to be electronically very similar to superconducting FeSe. Most remarkably, we find that low moment (10-2-10-3μB) disordered magnetism with a transition temperature of TN≈ 20 K microscopically coexists with bulk superconductivity below Tc=4.3(1) K. From transverse field μSR we obtain an in-plane penetration depth λab(0)=223(2) nm for FeS. The temperature dependence of the corresponding superfluid density λab-2(T) indicates a fully gapped superconducting state and is consistent with a two gap s-wave model. Additionally, we find that the superconducting Tc of FeS continuously decreases for hydrostatic pressures up to 2.2 GPa.