Spin-orbital order in LaMnO3: d-p model study

Abstract

Using the multiband d-p model and unrestricted Hartree-Fock approximation we investigate the electronic structure and spin-orbital order in three-dimensional MnO3 lattice such as realized in LaMnO3. The orbital order is induced and stabilized by particular checkerboard pattern of oxygen distortions arising from the Jahn-Teller effect in the presence of strong Coulomb interactions on eg orbitals of Mn ions. We show that the spin-orbital order can be modeled using a simple Ansatz for local crystal fields alternating between two sublattices on Mn ions, which have non-equivalent neighboring oxygen distortions in ab planes. The simple and computationally very inexpensive d-p model reproduces correctly nontrivial spin-orbital order observed in undoped LaMnO3. Orbital order is very robust and is reduced by 3 \% for large self-doping in the metallic regime.