04.02.2026, 9:00 Uhr
– Haus 9, Raum 2.22
Hochschulöffentlicher Vortrag
Stabilization by transport noise and enhanced dissipation in the Kraichnan model
Ivan Yaroslavtsev (Hamburg)
Marie-Christin Bormann (Uni Leipzig)
Abstract: We establish a representation of the heat flow with Wentzell boundary conditions on smooth domains as gradient descent dynamics for the entropy in a suitably extended Otto manifold of probability measures with additional boundary parts. Yet it is shown that for weak boundary diffusion, the associated Fokker–Planck dynamics cannot be recovered from any entropy-driven metric JKO-Wasserstein scheme, at least if the underlying point metric satisfies certain natural regularity assumptions. The talk is based on joint work with Léonard Monsaingeon, Michiel Renger and Max von Renesse.