Localization for a Matrix-valued Anderson Model

We study localization properties for a class of one-dimensional, matrix-valued, continuous, random Schrödinger operators, acting on , for arbitrary N  ≥ 1. We prove that, under suitable assumptions on the Fürstenberg group of these operators, valid on an interval , they exhibit localization properti...

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Bibliographic Details
Published in:Mathematical physics, analysis, and geometry analysis, and geometry, 2009-08, Vol.12 (3), p.255-286
Main Author: Boumaza, Hakim
Format: Article
Language:English
Subjects:
Analysis
Applications of Mathematics
Geometry
Group Theory and Generalizations
Mathematical and Computational Physics
Physics
Physics and Astronomy
Theoretical
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Summary:We study localization properties for a class of one-dimensional, matrix-valued, continuous, random Schrödinger operators, acting on , for arbitrary N  ≥ 1. We prove that, under suitable assumptions on the Fürstenberg group of these operators, valid on an interval , they exhibit localization properties on I , both in the spectral and dynamical sense. After looking at the regularity properties of the Lyapunov exponents and of the integrated density of states, we prove a Wegner estimate and apply a multiscale analysis scheme to prove localization for these operators. We also study an example in this class of operators, for which we can prove the required assumptions on the Fürstenberg group. This group being the one generated by the transfer matrices, we can use, to prove these assumptions, an algebraic result on generating dense Lie subgroups in semisimple real connected Lie groups, due to Breuillard and Gelander. The algebraic methods used here allow us to handle with singular distributions of the random parameters.
ISSN:1385-0172
1572-9656
DOI:10.1007/s11040-009-9061-3