Orbital-order melting in rare-earth manganites: the role of super-exchange

Abstract

We study the mechanism of orbital-order melting observed at temperature TOO in the series of rare-earth manganites. We find that many-body super-exchange yields a transition-temperature TKK that decreases with decreasing rare-earth radius, and increases with pressure, opposite to the experimental TOO. We show that the tetragonal crystal-field splitting reduces TKK further increasing the discrepancies with experiments. This proves that super-exchange effects, although very efficient, in the light of the experimentally observed trends, play a minor role for the melting of orbital ordering in rare-earth manganites.