Direct observation of oxygen polarization in Sr2IrO4 by O K-edge x-ray magnetic circular dichroism

Abstract

X-ray absorption spectroscopy (XAS) and magnetic circular dichroism (XMCD) measurements at the oxygen (O) K-edge were performed to investigate the magnetic polarization of ligand O atoms in the weak ferromagnetic (WFM) phase of the Ir perovskite compound Sr2IrO4. With the onset of the WFM phase below T N240 K, XMCD signals corresponding to XAS peaks respectively identified as originating from the magnetic moments of apical and planar oxygen (O A and O P) in the IrO6 octahedra were observed. The observation of magnetic moments at O A sites is consistent (except for the relative orientation) with that suggested by prior muon spin rotation (μSR) experiment in the non-collinear antiferromagnetic (NC-AFM) phase below T M≈100 K. Assuming that the O A magnetic moment observed by μSR is also responsible for the corresponding XMCD signal, the magnetic moment of O P is estimated to be consistent with the previous μSR result. Since the O A XMCD signal is mainly contributed by Ir 5d zx and yz orbitals which also hybridize with O P, it is inferred that the relatively large O P magnetic moment is induced by Ir 5d xy orbitals. Moreover, the inversion of O A moments relative to Ir moments between the two magnetic phases revealed by XMCD suggests the presence of competing magnetic interactions for O A, with which the ordering of O A moments in the NC-AFM phase may be suppressed to T M.