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| Name: | ||
| Miloslav Znojil | ||
| Reviewer number: | ||
| 9689 | ||
| Email: | ||
| znojil@ujf.cas.cz | ||
| Item's zbl-Number: | ||
| DE 018 024 62X | ||
| Author(s): | ||
| Veselic, Ivan: | ||
| Shorttitle: | ||
| Localization of random perturbations of periodic Schroedinger operators | ||
| Source: | ||
| Ann. Henri Poincare 3, No. 2, 389-409 (2002) | ||
| Classification: | ||
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| Primary Classification: | ||
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| Secondary Classification: | ||
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| Keywords: | ||
| periodic Schroedinger operators; regular Floquet eigenvalues; random perturbations; proof of Andrson-type localization; | ||
| Review: | ||
The possibility of absence of diffusion in certain random lattices (i.e., the famous Anderson localization) is formulated and proved as a theorem on non-negative, omega-dependent random perturbations V [of a periodic (or, more generally, quasi-periodic) continuous Schroedinger operator H] which preserve a spectral band. The theorem states that there exists an interval I (containing the lower edge of the band) where the perturbed spectrum is pure point (for almost all omega). The proof relies on exclusion of the absolutely continuous spectrum via establishing the exponential decay of the non-ergodic, finite-size (box) resolvents, followed by the standard (still briefly outlined) recursive multi-scale analysis. As long as the key technical result of the paper concerns the integrated densities of states, certain specific properties of the Floquet eigenvalues of H are assumed. | ||
| Remarks to the editors: | ||