Effect of change in number of conduction electrons on the spin configuration in transition metal oxides
College
College of Science
Department/Unit
Physics
Document Type
Conference Proceeding
Source Title
Surface and Interface Analysis
Volume
40
Issue
6-7
First Page
1078
Last Page
1081
Publication Date
6-1-2008
Abstract
We study the correlation between the spin configuration and the average number of conduction electrons, based on the Kondo lattice type Hamiltonian. We found that a change in the average number of conduction electrons causes a change in the spin configuration. This results from the competition among the strong Coulomb repulsion, Hund's coupling, and antiferromagnetic interaction. A change in spin configuration from an antiferromagnetic ordering to a spin spiral state can be initiated by slightly doping holes into the half-filled state. We also found that the spin spiral state exhibits a correspondingly larger conductance than the antiferromagnetic state. On the basis of these results, we suggest that it is possible to alter the conductance (transport property) of transition metal oxides by inducing a change in the spin configuration through the application of an external voltage. Copyright © 2008 John Wiley & Sons, Ltd.
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Digitial Object Identifier (DOI)
10.1002/sia.2843
Recommended Citation
Minamitani, E., Roleda, R., Diño, W., Kishi, T., Nakanishi, H., & Kasai, H. (2008). Effect of change in number of conduction electrons on the spin configuration in transition metal oxides. Surface and Interface Analysis, 40 (6-7), 1078-1081. https://doi.org/10.1002/sia.2843
Disciplines
Physics
Keywords
Transition metal oxides; Conduction electrons; Rotational motion
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