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On solvability and ill-posedness of the compressible Euler system subject to stochastic forces

We consider the (barotropic) Euler system describing the motion of a compressible inviscid fluid driven by a stochastic forcing. Adapting the method of convex integration we show that the initial value problem is ill-posed in the class of weak (distributional) solutions. Specifically, we find a sequence $τ_M \to \infty$ of positive stopping times for which the Euler system admits infinitely many solutions originating from the same initial data. The solutions are weak in the PDE sense but strong in the probabilistic sense, meaning, they are defined on an {\it a priori} given stochastic basis and adapted to the driving stochastic process.

preprint2017arXivOpen access
Dominic BreitEduard FeireislMartina Hofmanova
math.AP
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Dominic BreitEduard FeireislMartina Hofmanova

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