First-principles determination of charge and orbital interactions in Fe[subscript 3]O[subscript]4

Author(s)

Zhou, Fei; Ceder, Gerbrand

Alternative title

First-principles determination of charge and orbital interactions in Fe3O4

Abstract

The interactions between charge and orbitally ordered d electrons are important in many transition-metal oxides. We propose an effective energy model for such interactions, parameterized with density-functional theory plus U calculations, so that energy contributions of both electronic and lattice origin can be simultaneously accounted for. The model is applied to the low-temperature phase of magnetite, for which we propose a ground-state structure. The effective interactions on the B lattice of Fe[subscript 3]O[subscript]4 can be interpreted in terms of electrostatics and short-range Kugel-Khomskii exchange coupling. The frustration between optimal charge and orbital orderings leads to a complex energy landscape whereby the supercell for the charge ordering, orbital ordering, and ionic displacements can all be different.

Date issued

2010-05

URI

http://hdl.handle.net/1721.1/58787

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering

Journal

Physical Review B

Publisher

American Physical Society

Citation

Zhou, Fei, and Gerbrand Ceder. “First-principles determination of charge and orbital interactions in Fe_{3}O_{4}.” Physical Review B 81.20 (2010): 205113. © 2010 The American Physical Society

Version: Final published version

ISSN

1098-0121

1550-235X