CS10: Dynamics of Stochastic Particle Systems

Organizer: Sergio Andraus (Japan International University)

Collisions in one-dimensional particle systems

Nicole Hufnagel

In this joint work we consider a general one-dimensional particle system. These processes are mainly characterized by multiplicity parameters controlling the strength of the particles’ interaction. It is well-known that collisions between particles never take place when all of these multiplicities are large, but occur almost surely otherwise.  
 
It was recently shown by the authors that the collision times in the special case of multivariate Bessel processes of rational type is a piecewise-linear function of the minimum of its multiplicities, but is independent of the dimension of the process’s domain. This implies that the Hausdorff dimension does not depend on the particle number.  
 
In this talk, we present an approach to extend this result to a general particle system.

Heat kernel bounds for Keller-Segel type finite particles

Sallah Eddine BOUTIAH

NA

Optimal Bounds For The Dunkl Kernel In The Dihedral Case

Bartosz Trojan

In this talk, we present how we have established sharp upper and lower estimates of the Dunkl kernel in the case of dihedral groups. Our strategy consists in using the differential-difference equations satisfied by the kernel, and in constructing appropriate barrier functions. The talk is based on the joint work with Jean-Philippe Anker.