Non-d0 Electric Dipole in FeO5 bipyramid: a New Resource for Quantum Paraelectrics, Ferroelectrics and Multiferroics

Abstract

Electric polarization in conventional ferroelectric oxides usually involves nonmagnetic transition-metal ions with an empty d shell (the d0 rule). Here we unravel a new mechanism for local electric dipoles based on magnetic Fe3+ (3d5) ion violating the d0 rule. The competition between the long-range Coulomb interaction and short-range Pauli repulsion in a FeO5 bipyramid with proper lattice parameters would favor an off-center displacement of Fe3+ that induces a local electric dipole. The manipulation of this kind of non-d0 electric dipoles opens up a new route for generating unconventional dielectrics, ferroelectrics, and multiferroics. As a prototype example, we show that the non-d0 electric dipoles in ferrimagnetic hexaferrites (Ba,Sr)Fe12O19 lead to a new family of magnetic quantum paraelectrics.