Origin of Tc Enhancement Induced by Doping Yttrium and Hydrogen into LaFeAsO-based Superconductors: 57Fe, 75As, 139La, and 1H-NMR Studies

Abstract

We report our extensive 57Fe-, 75As-, 139La-, and 1H-NMR studies of La0.8Y0.2FeAsO1-y (La0.8Y0.21111) and LaFeAsO1-yHx(La1111H), where doping yttrium (Y) and hydrogen (H) into optimally doped LaFeAsO1-y (La1111(OPT)) increases Tc=28 K to 34 and 32 K, respectively. In the superconducting (SC) state, the measurements of nuclear-spin lattice-relaxation rate 1/T1 have revealed in terms of a multiple fully gapped s-wave model that the SC gap and Tc in La0.8Y0.21111 become larger than those in La1111(OPT) without any change in doping level. In La1111H, the SC gap and Tc also increase slightly even though a decrease in carrier density and some disorders are significantly introduced. As a consequence, we suggest that the optimization of both the structural parameters and the carrier doping level to fill up the bands is crucial for increasing Tc among these La1111-based compounds through the optimization of the Fermi surface topology.