Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
1999-05-06
Materials Science & Engineering B 63, 171 (1999)
Physics
Condensed Matter
Strongly Correlated Electrons
to be published in Materials Science & Engineering B
Scientific paper
We study the manganese oxides from the viewpoint of the strongly correlated doped Mott insulator. The magnetic ordering and the charge transport are governed by the orbital degrees of freedom, and their dimensionality is controlled by the anisotropic transfer integrals between the $e_g$ orbitals. As x increases the magnetic structure is predicted to change as $A \to F \to A \to C \to G$ (F: ferromagnet, A: layered antiferromagnet, C: rod-type antiferromagnet, G: usual antiferromagnet), in agreement with experiments. Especially the orbital is aligned as $d_{x^2-y^2}$ in the metallic A state, which explains the quasi 2D transport and no canting of the spin observed experimentally. Next we discuss the ferromagnetic state without the orbital ordering due to the quantum fluctuation. Here the interplay between the electron repulsion U and the Jahn-Teller electron-phonon interation $E_{LR}$ is studied with a large d model. In addition to this strong correlation, we propose that the dynamical phase separation could explain the specific heat as well as the various anomalous physical properties, e.g., resistivity, photo-emission, etc.
Ishihara Sachiko
Lee Hyun C.
Maezono Ryo
Murakami Satoshi
Nagaosa Naoto
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