Electronic structure and ferroelectricity of multiferroic Lu_0.5Sc_0.5FeO₃

We investigated the electronic structure of a multiferroic Lu_0.5Sc_0.5FeO₃ single crystal using x-ray absoprtion spectroscopy, cluster model calculation, and ab initio analysis. X-ray linear dichroism measurement reveals that the A-site ion hybridizes strongly with O ions, where the hybridization strength of Lu is nearly twice larger than that of Sc. In addition, the anisotropic hybridization of Lu is larger, that results in the wider splitting of a_1g states from e_g^π states. The difference affects the energetic landscape of ferroelectric transition which is captured in ab initio calculation. Interestingly, the Born effective charge of planar O ions exhibits small deviation from a nominal valence instead of the anisotropic bonding, while that of apical O ion shows large value. Our observation suggest that the electronic contribution of e_g^π and e_g^σ bonds to six apical O ions in AO₈ cage should be counted in to describe a ferroelectric instability in h-A(Mn,Fe)O₃