Dimensional crossover and the magnetic transition in electron doped manganites

Abstract

We introduce a microscopic model for electron doped manganites that explains the mechanism of the observed transition from G-type antiferromagnetic (G-AF) to C-type antiferromagnetic (C-AF) order under increasing doping by double exchange mechanism. The model unravels the crucial role played by eg orbital degrees of freedom and explains the observed metal-to-insulator transition by a dimensional crossover at the magnetic phase transition. The specific heat and the spin canting angle found for the G-AF phase agree with the experimental findings. As a surprising outcome of the theory we find that spin canting is suppressed in the C-AF phase, in agreement with the experiment, due to the Fermi surface topology.