Orbital Order, Stripe Phases and Mott Transition in a Planar Model for Manganites

Abstract

Understanding orbital ordered (OO) Mott insulating states lies at the heart of a consistent resolution of the colossal magneto-resistance (CMR) observed in manganites, where its melting induces a low-T insulator-metal transition for 0.25 x 0.45. Motivated thereby, we study the OO states in a planar model for bilayer manganites using DMFT and finite-size diagonalisation methods. We derive the correct OO ground states observed in manganites for x=0,1/2,2/3,3/4 in exact agreement with observations, including the charge-orbital-magnetic ordered stripe phases for x>1/2. These OO states are exactly shown to be associated with an ``alloy'' ordering of the d3x2-r2/d3y2-r2 orbitals on each Mn3+ site.