Wednesday, November 18, 2020
4:00-5:00 PM
Virtual
Abstract: In recent years great progress has been made in the study of dispersive and wave equations. Over the years the toolbox used in order to attack highly nontrivial problems related to these equations has developed to include a variety of techniques from Fourier and harmonic analysis, analytic number theory, math physics, dynamical systems, probability and symplectic geometry. In this talk I will introduce a variety of problems connected with dispersive and wave equations, such as the derivation of a certain nonlinear Schrodinger equation from a quantum many-particles system, periodic Strichartz estimates, the concept of energy transfer, the invariance of a Gibbs measure associated to an infinite dimension Hamiltonian system and non-squeezing theorems for such systems when they also enjoy a symplectic structure.
Building: | Off Campus Location |
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Location: | Virtual |
Website: | |
Event Type: | Workshop / Seminar |
Tags: | Astronomy, astrophysics, Bioinformatics, Electrical Engineering and Computer Science, Mathematics, Physics |
Source: | Happening @ Michigan from Michigan Center for Applied and Interdisciplinary Mathematics, Department of Physics, Department of Mathematics |