First-principles prediction of coexistence of magnetism and ferroelectricity in rhombohedral Bi2FeTiO6

Abstract

First principles calculations based on the density functional theory within the local spin density approximation plus U(LSDA+U)scheme, show rhombohedral Bi2FeTiO6 is a potential multiferroic in which the magnetism and ferroelectricity coexist . A ferromagnetic configuration with magnetic moment of 4 μB per formula unit have been reported with respect to the minimum total energy. Spontaneous polarization of 27.3 μ C/cm2, caused mainly by the ferroelectric distortions of Ti, was evaluated using the berry phase approach in the modern theory of polarization. The Bi-6s stereochemical activity of long-pair and the `d0-ness' criterion in off-centring of Ti were coexisting in the predicted new system. In view of the oxidation state of Bi3+,Fe2+,Ti4+, and O2- from the orbital-resolved density of states of the Bi-6p, Fe-3d,Ti-3d, and O-2p states,the valence state of Bi2FeTiO6 in the rhombohedral phase was found to be Bi23+Fe2+Ti4+O6.