Upper critical field of aligned Nax(H3O)zCoO2· yH2O superconductor by magnetization measurement

Abstract

We present magnetization measurements for the upper critical field Hc2 on aligned Nax(H3O)zCoO2· yH2O superconductors with magnetic field parallel to CoO2 layers. The temperature-dependent part of the normal-state magnetization M(H,T) can be well scaled with Brillouin function, suggesting the existence of impurity moments. By subtracting the contribution of the magnetic impurity moments, a well defined onset of superconducting diamagnetism allows the in-field superconducting transition temperature Tc(H) accurately determined. No superconducting transition was observed down to 1.9 K under an applied field of 8 Tesla. The result suggests that the H\|abc2(0) value is just within the Pauli paramagnetic limit, supporting spin-singlet superconductivity in the cobalt oxyhydrate superconductor. Additionally, the upward curvature near Tc in the H\|abc2-T phase diagram was confirmed to be intrinsic. Possible origin of the anomaly was discussed.