Existence and uniqueness of steady weak solutions to the Navier–Stokes equations in ℝ²

Guillod, Julien; Wittwer, Peter

doi:10.1090/proc/14087

Existence and uniqueness of steady weak solutions to the Navier–Stokes equations in $\mathbb {R}^{2}$
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by Julien Guillod and Peter Wittwer PDF

Proc. Amer. Math. Soc. 146 (2018), 4429-4445 Request permission

Abstract:

The existence of weak solutions to the stationary Navier–Stokes equations in the whole plane $\mathbb {R}^{2}$ is proven. This particular geometry was the only case left open since the work of Leray in 1933. The reason is that due to the absence of boundaries the local behavior of the solutions cannot be controlled by the enstrophy in two dimensions. We overcome this difficulty by constructing approximate weak solutions having a prescribed mean velocity on some given bounded set. As a corollary, we obtain infinitely many weak solutions in $\mathbb {R}^{2}$ parameterized by this mean velocity, which is reminiscent of the expected convergence of the velocity field at large distances to any prescribed constant vector field. This explicit parameterization of the weak solutions allows us to prove a weak-strong uniqueness theorem for small data. The question of the asymptotic behavior of the weak solutions remains open however when the uniqueness theorem doesn’t apply.

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