SMS scnews item created by Daniel Daners at Thu 25 Feb 2010 0851
Type: Seminar
Modified: Thu 25 Feb 2010 0936; Wed 10 Mar 2010 1236
Distribution: World
Expiry: 22 Mar 2010
Calendar1: 22 Mar 2010 1505-1600
CalLoc1: Carslaw 273
Auth: daners@p7153.pc.maths.usyd.edu.au

PDE Seminar

Leray’s inequality in multi-connected domains

Kozono

Update: Note the change of date

Hideo Kozono
Tohoku University, Japan
22 March 2010, 3-4pm, Carslaw Room 273

Abstract

Consider the stationary Navier-Stokes equations in a bounded domain Ω ⊂ ℝ³ whose boundary ∂Ω consists of L + 1 disjoint closed surfaces Γ₀, Γ₁, …, Γ_L with Γ₁, …, Γ_L inside of Γ₀. The Leray inequality of the given boundary data β on ∂Ω plays an important role for the existence of solutions. It is known that if the flux γ_i ≡∫ _{Γ_i}β ⋅ νdS = 0 on Γ_i(ν: the unit outer normal to Γ_i) is zero for each i = 0, 1,…,L, then the Leray inequality holds. We prove that if there exists a sphere S in Ω separating ∂Ω in such a way that Γ₁,…, Γ_k, 1 ≤ k ≤ L are contained in S and that Γ_k+1,…, Γ_L are in the outside of S, then the Leray inequality necessarily implies that γ₁ + … + γ_k = 0. In particular, suppose that for each each i = 1,…,L there exists a sphere S_i in Ω such that S_i contains only one Γ_i. Then the Leray inequality holds if and only if γ₀ = γ₁ = … = γ_L = 0.

Check also the PDE Seminar page. Enquiries to Florica Cîrstea or Daniel Daners.

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