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Liouville-type theorems for the forced Euler equations and the Navier-Stokes equations (1306.5839v1)

Published 25 Jun 2013 in math.AP

Abstract: In this paper we study the Liouville-type properties for solutions to the steady incompressible Euler equations with forces in $\Bbb RN$. If we assume "single signedness condition" on the force, then we can show that a $C1 (\Bbb RN)$ solution $(v,p)$ with $|v|2+ |p|\in L{\frac{q}{2}}(\Bbb RN)$, $q\in (\frac{3N}{N-1}, \infty)$ is trivial, $v=0$. For the solution of of the steady Navier-Stokes equations, satisfying $v(x)\to 0$ as $|x|\to \infty$, the condition $\int_{\Bbb R3} |\Delta v|{\frac65} dx<\infty$, which is stronger than the important D-condition, $\int_{\Bbb R3} |\nabla v|2 dx <\infty$, but both having the same scaling property, implies that $v=0$. In the appendix we reprove the Theorem 1.1(\cite{cha0}), using the self-similar Euler equations directly.

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