Orbital Physics in Transition-Metal Oxides

Top Cited Papers

21 April 2000

journal article
review article
Published by American Association for the Advancement of Science (AAAS) in Science

Vol. 288 (5465), 462-468
https://doi.org/10.1126/science.288.5465.462

Abstract

An electron in a solid, that is, bound to or nearly localized on the specific atomic site, has three attributes: charge, spin, and orbital. The orbital represents the shape of the electron cloud in solid. In transition-metal oxides with anisotropic-shaped d-orbital electrons, the Coulomb interaction between the electrons (strong electron correlation effect) is of importance for understanding their metal-insulator transitions and properties such as high-temperature superconductivity and colossal magnetoresistance. The orbital degree of freedom occasionally plays an important role in these phenomena, and its correlation and/or order-disorder transition causes a variety of phenomena through strong coupling with charge, spin, and lattice dynamics. An overview is given here on this “orbital physics,” which will be a key concept for the science and technology of correlated electrons.

Keywords

This publication has 58 references indexed in Scilit:

Thermodynamics of the One-Dimensional SU(4) Symmetric Spin-Orbital Model
Physical Review Letters, 1999
Critical Behavior of the Metal-Insulator Transition in ${La}_{1 - x} {Sr}_{x} {MnO}_{3}$
Physical Review Letters, 1998
Direct Observation of Charge and Orbital Ordering in ${La}_{0.5} {Sr}_{1.5} {MnO}_{4}$
Physical Review Letters, 1998
Critical change of magnetoresistance with bandwidth and doping in perovskite manganites
Applied Physics Letters, 1997
Low-Temperature Specific Heat of ${La}_{1 - x} {Sr}_{x} {MnO}_{3 + δ}$
Physical Review Letters, 1997
Crucial Role of the Lattice Distortion in the Magnetism of ${LaMnO}_{3}$
Physical Review Letters, 1996
Temperature-dependent photoemission spectral weight in ${La}_{0.6}$ ${Sr}_{0.4}$ ${MnO}_{3}$
Physical Review B, 1996
Magnetic structure of $V_{2}$ $O_{3}$ in the insulating phase
Physical Review B, 1978
Co-operative Jahn-Teller effects
Reports on Progress in Physics, 1975
L'interaction Entre les Atomes Magnétogènes dans un Cristal Paramagnétique
Physica, 1934

Cited by 2137 articles