Flux line lattice state versus magnetism in electron-doped cuprate superconductor Sr1-xLaxCuO2

Abstract

The microscopic details of flux line lattice state studied by muon spin rotation is reported in an electron-doped high-T c cuprate superconductor, Sr1-xLaxCuO2 (SLCO, x=0.10--0.15). A clear sign of phase separation between magnetic and non-magnetic phases is observed, where the effective magnetic penetration depth [λλ(T,H)] is determined selectively for the latter phase. The extremely small value of λ(0,0) %versus T c and corresponding large superfluid density (ns λ-2) is consistent with presence of a large Fermi surface with carrier density of 1+x, which suggests the breakdown of the "doped Mott insulator" even at the "optimal doping" in SLCO. Moreover, a relatively weak anisotropy in the superconducting order parameter is suggested by the field dependence of λ(0,H). These observations strongly suggest that the superconductivity in SLCO is of a different class from hole-doped cuprates.