Hidden magnetic transitions in thermoelectric layered cobaltite, [Ca2CoO3]0.62[CoO2]
Abstract
A positive muon spin rotation and relaxation (μ+SR) experiment on [Ca2CoO3]0.62[CoO2], ( i.e., Ca3Co4O9, a layered thermoelectric cobaltite) indicates the existence of two magnetic transitions at 100 K and 400 - 600 K; the former is a transition from a paramagnetic state to an incommensurate ( IC) spin density wave ( SDW) state. The anisotropic behavior of zero-field μ+SR spectra at 5 K suggests that the IC-SDW propagates in the a-b plane, with oscillating moments directed along the c-axis; also the IC-SDW is found to exist not in the [Ca2CoO3] subsystem but in the [CoO2] subsystem. In addition, it is found that the long-range IC-SDW order completes below 30 K, whereas the short-range order appears below 100 K. The latter transition is interpreted as a gradual change in the spin state of Co ions %% at temperatures above 400 K. These two magnetic transitions detected by μ+SR are found to correlate closely with the transport properties of [Ca2CoO3]0.62[CoO2].
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