Anisotropic Magnetoresistance in Charge-Ordering Na0.34(H3O)0.15CoO2:Strong Spin-Charge Coupling and Spin Ordering

Abstract

Angular-dependent in-plane magnetoresistance (AMR) for single crystal Na0.34(H3O)0.15CoO2 with charge ordering is studied systematically. The anisotropic magnetoresistance shows a twofold symmetry at high temperature with rotating H in the Co-O plane, while a sixfold symmetry below a certain temperature (T). At T, the symmetry of AMR changes from twofold to fourfold with rotating magnetic field (H) in the plane consisting of the current and c-axis. The variation of AMR symmetry with temperature arises from the subtle changes of the spin structure. These results give a direct evidence for the itinerant electrons directly coupled to the localized spins.

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