Field and Temperature Dependence of the Superfluid Density in LaO1-xFxFeAs Superconductors: A Muon Spin Relaxation Study

Abstract

We present zero field and transverse field μSR experiments on the recently discovered electron doped Fe-based superconductor LaO1-xFxFeAs. The zero field experiments on underdoped (x=0.075) and optimally doped (x=0.1) samples rule out any static magnetic order above 1.6 K in these superconducting samples. From transverse field experiments in the vortex phase we deduce the temperature and field dependence of the superfluid density. Whereas the temperature dependence is consistent with a weak coupling BCS s-wave or a dirty d-wave gap function scenario, the field dependence strongly evidences unconventional superconductivity. We obtain the in-plane penetration depth of λab (0) = 254(2)nm for LaO0.9F0.1FeAs and λab (0) = 364(8)nm for LaO0.925F0.075FeAs. Further evidence for unconventional superconductivity is provided by the ratio of Tc versus the superfluid density, which is close to the Uemura line of hole doped high-Tc cuprates.