Possibility of ferro-octupolar order in Ba2CaOsO6 assessed by X-ray magnetic dichroism measurements
Abstract
Localized 5d2 electrons in a cubic crystal field possess multipoles such as electric quadrupoles and magnetic octupoles. We studied the cubic double perovskite Ba2CaOsO6 containing the Os6+ (5d2) ions, which exhibits a phase transition to a `hidden order' below T* 50 K, by X-ray absorption spectroscopy (XAS) and X-ray magnetic circular dichroism (XMCD) at the Os L2,3 edge. The cubic ligand-field splitting between the t2g and eg levels of Os 5d was deduced by XAS to be 4 eV. Ligand-field (LF) multiplet calculation under fictitious strong magnetic fields indicated that the exchange interaction between nearest-neighbor octupoles should be as strong as 1.5 meV if a ferro-octupolar order is stabilized in the `hidden-ordered' state, consistent with the exchange interaction of 1 meV previously predicted theoretically using model and density functional theory calculations. The temperature dependence of the XMCD spectra was consistent with a 18 meV residual cubic splitting of the lowest J eff = 2 multiplet state into the non-Kramers Eg doublet ground state and the T2g triplet excited state.
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