Physics – Condensed Matter – Disordered Systems and Neural Networks
Scientific paper
1999-08-09
Ann. Phys. (Leipzig) 8 (1999) Spec. Issue, SI-209 -- SI-212
Physics
Condensed Matter
Disordered Systems and Neural Networks
1 reference corrected. Proceedings of Localisation 1999, Hamburg, Germany; to appear in Annalen der Physik (Leipzig)
Scientific paper
The localization properties of electrons moving in a plane perpendicular to a spatially-correlated static magnetic field of random amplitude and vanishing mean are investigated. We apply the method of level statistics to the eigenvalues and perform a multifractal analysis for the eigenstates. From the size and disorder dependence of the variance of the nearest neighbor energy spacing distribution, $P_{W,L}(s)$, a single branch scaling curve is obtained. Contrary to a recent claim, we find no metal-insulator-transition in the presence of diagonal disorder. Instead, as in the uncorrelated random magnetic field case, conventional unitary behavior (all states are localized) is observed. The eigenstates at the band center, which in the absence of diagonal disorder are believed to belong to the chiral unitary symmetry class, are shown to exhibit a $f(\alpha)$-distribution for not too weak random fields. The corresponding generalized multifractal dimensions are calculated and found to be different from the results known for a QHE-system.
Potempa H.
Schweitzer Ludwig
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