Seminar in Analysis and Geometry

The landscape law and wave localization

Complexity of the geometry, randomness of the potential, and many other irregularities of the system can cause powerful, albeit quite different, manifestations of localization, a phenomenon of sudden confinement of waves, or eigenfunctions, to a small portion of the original domain. In the present talk we show that behind a possibly disordered system there exists a structure, referred to as a landscape function, which can predict the location and shape of the localized eigenfunctions, a pattern of their exponential decay, and deliver accurate bounds for the corresponding eigenvalues. In particular, we establish the first non-asymptotic estimates from above and below on the integrated density of states of the Schroedinger operator using a counting function for the minima of the localization landscape.

Date & Time

December 07, 2021 | 2:00pm – 3:00pm

Location

Simonyi Hall 101 and Remote Access

Affiliation

University of Minnesota; von Neumann Fellow, School of Mathematics

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