A common behavior of thermoelectric layered cobaltites: incommensurate spin density wave states in [Ca2Co4/3Cu2/3O4]0.62[CoO2] and [Ca2CoO3]0.62[CoO2]
Abstract
Magnetism of a misfit layered cobaltite [Ca2Co4/3Cu2/3O4]x RS[CoO2] (x 0.62, RS denotes a rocksalt-type block) was investigated by a positive muon spin rotation and relaxation (μ+SR) experiment. A transition to an incommensurate ( IC) spin density wave ( SDW) state was found below 180 K (= T C on); and a clear oscillation due to a static internal magnetic field was observed below 140 K (= T C). Furthermore, an anisotropic behavior of the zero-field μ+SR experiment indicated that the IC-SDW propagates in the a-b plane, with oscillating moments directed along the c axis. These results were quite similar to those for the related compound [Ca2CoO3]0.62 RS[CoO2], i.e., Ca3Co4O9. Since the IC-SDW field in [Ca2Co4/3Cu2/3O4]0.62 RS[CoO2] was approximately same to those in pure and doped [Ca2CoO3]0.62 RS[CoO2], it was concluded that the IC-SDW exist in the [CoO2] planes.
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