Spin Dynamics in Iron-based Layered Superconductor (La0.87Ca0.13)FePO Revealed by 31P and 139La NMR Studies

Abstract

We report 31P and 139La NMR studies of (La0.87Ca0.13)FePO, which is a family member of the recently discovered superconductor LaFeAs(O1-xFx). In the normal state, Knight shift and 1/T1T show that a Fermi-liquid state with moderate ferromagnetic fluctuations emerges below 30K. From 1/T1T of 31P and 139La, quasi-two dimensional electronic structure is suggested, in which the FeP layer is more conductive than the LaO layer. In the superconducting (SC) state, although a clear Meissner signal was observed, 1/T1T increases below Tc, in contrast to a decrease of 1/T1T due to the opening of a SC gap, suggesting that novel low-energy spin dynamics develop in the SC state.