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Active HORIZON European Commission

Geometry, Control and Genericity for Partial Differential Equations

€1.65M EUR

Funder European Commission
Recipient Organization Universite Paris-Saclay
Country France
Start Date Oct 01, 2023
End Date Sep 30, 2028
Duration 1,826 days
Number of Grantees 1
Roles Coordinator
Data Source European Commission
Grant ID 101097172
Grant Description

Many physics models are described by waves or more generally dispersive equations (Schrdinger equations) with propagation in a non homogeneous and bounded medium. Toy models (mostly in flat backgrounds) have been developed by mathematicians. However, many questions remain open even on these simplified models in the presence of inhomogeneities and boundaries.

In particular, the works of mathematicians in the last decade have allowed to exhibit some pathological behaviours which appear to be quite unstable.A first point in this proposal will be to expand the understanding of the influence of the geometry (inhomogeneities of the media, boundaries) on the behaviour of solutions to dispersive PDEs.When these behaviours appear to be unstable, a natural question is whether they are actually rare.

The last years have seen the emergence of a new point of view on these questions: random data Cauchy theories. The idea behind is that for random initial data, the solutions behaviours are better than expected (deterministically). The second point of this project is precisely to go further in this direction.

After identifying these pathological behaviours, is it possible to show that for almost all initial data, almost all geometries, they do not happen?Understanding how to combine the powerful techniques from micro-local and harmonic analysis with a probabilistic approach in this context should allow a much better understanding of these physically relevant models.Summarising, the purpose of my project is to develop tools and give answers to the following questions in the context of dispersive PDEs (and to some extent fluids mechanics)Can we understand the influence of the geometric background (and boundaries) on concentration properties and the the behaviour of solutions to dispersive evolution PDEs?Can we define generic behaviours for solutions to waves and fluids PDE's ?

Can we show that some very pathological behaviours (which do happen) are actually very rare?

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Universite Paris-Saclay

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