Transition between two ferromagnetic states driven by orbital ordering in La0.88Sr0.12MnO3

Abstract

A lightly doped perovskite mangantite La0.88Sr0.12MnO3 exhibits a phase transition at TOO=145 K from a ferromagnetic metal (TC=172 K) to a novel ferromagnetic insulator.We identify that the key parameter in the transition is the orbital degree of freedom in eg electrons. By utilizing the resonant x-ray scattering technique, orbital ordering is directly detected below TOO, in spite of a significant diminution of the cooperative Jahn-Teller distortion. The new experimental features are well described by a theory treating the orbital degree of freedom under strong electron correlation. The present experimental and theoretical studies uncover a crucial role of the orbital degree in the metal-insulator transition in lightly doped manganites.

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