Hausdorff Kolloquium 2019/2020

Date: October 23, 2019 - January 29, 2020 

Venue: Mathematikzentrum, Lipschitz Lecture Hall, Endenicher Allee 60, Bonn

Wednesday, November 20

15:15 Mike Hopkins (Harvard University): Even spaces in algebra, geometry and topology
16:45 Terry Lyons (University of Oxford): What have rough paths to do with data science?

Wednesday, January 29

15:15 Patricia Gonçalves (University of Lisbon)
16:45 Philippe Michel (EPF Lausanne)

Abstracts

Mike Hopkins (Harvard University): Even spaces in algebra, geometry and topology

Spaces equipped with a decomposition into even dimensional cells arise naturally in many areas of mathematics. This talk will survey some of these spaces, some conjectures about analogues of them in equivariant and motivic homotopy theory, and some applications.

Top

Jani Lukkarinen (University of Helsinki): Mathematical puzzles in kinetic theory

Kinetic theory and the associated Boltzmann transport equations are one of the few tools which allow to bridge the orders of magnitude from the scale of microscopic dynamical models to their macroscopic transport properties. Although it is often restricted to models whose dynamics are weak perturbations of constant velocity motion, many physical systems offer examples of such behaviour. One case which can be controlled mathematically, is a rarefied gas of hard spheres with elastic collisions, in the Boltzmann-Grad scaling limit. Other less obvious examples are given by weakly perturbed wave motions, including weakly interacting quantum particles and weakly nonlinear discrete wave equations.

In this talk, we discuss mathematical evidence which support the validity of these kinetic theory approximations, as well as their known limitations and modifications. One key step is starting the microscopic dynamics with initial data which is random and sufficiently "chaotic". The importance of this assumption is highlighted in the dynamical formation of a Bose-Einstein condensate: the macroscopic correlations appearing together with the condensate are not compatible with the standard assumptions, and indeed modified kinetic equations are expected to be needed after the formation. This picture is corroborated by the work of Escobedo and Velázquez who prove that the related bosonic kinetic theory has solutions which blow up in a finite (kinetic) time.

Top

Monica Visan (UCLA): Recent progress on well-posedness for integrable PDE

I will introduce the Korteweg-de Vries equation and then describe the method developed with Rowan Killip for proving optimal well-posedness for this equation.  Next, I will describe subsequent developments for proving optimal well-posedness results for other models such as the completely integrable Schrodinger and the modified Korteweg-de Vires equations.

Top