6533b7d8fe1ef96bd126afd0

RESEARCH PRODUCT

Hölder stability for Serrin’s overdetermined problem

Rolando MagnaniniVincenzo VespriGiulio Ciraolo

subject

Applied Mathematics010102 general mathematicsMathematical analysisRegular polygonSerrin’s problemFunction (mathematics)Directional derivativeLipschitz continuity01 natural sciencesDomain (mathematical analysis)010101 applied mathematicsOverdetermined systemCombinatoricsBounded functionOverdetermined problemHarnack’s inequalityStationary surface0101 mathematicsStabilityMethod of moving planeHarnack's inequalityMathematics

description

In a bounded domain \(\varOmega \), we consider a positive solution of the problem \(\Delta u+f(u)=0\) in \(\varOmega \), \(u=0\) on \(\partial \varOmega \), where \(f:\mathbb {R}\rightarrow \mathbb {R}\) is a locally Lipschitz continuous function. Under sufficient conditions on \(\varOmega \) (for instance, if \(\varOmega \) is convex), we show that \(\partial \varOmega \) is contained in a spherical annulus of radii \(r_i 0\) and \(\tau \in (0,1]\). Here, \([u_\nu ]_{\partial \varOmega }\) is the Lipschitz seminorm on \(\partial \varOmega \) of the normal derivative of u. This result improves to Holder stability the logarithmic estimate obtained in Aftalion et al. (Adv Differ Equ 4:907–932, 1999) for Serrin’s overdetermined problem. It also extends to a large class of semilinear equations the Holder estimate obtained in Brandolini et al. (J Differ Equ 245:1566–1583, 2008) for the case of torsional rigidity (\(f\equiv 1\)) by means of integral identities. The proof hinges on ideas contained in Aftalion et al. (1999) and uses Carleson-type estimates and improved Harnack inequalities in cones.

yearjournalcountryeditionlanguage
2015-07-08Annali di Matematica Pura ed Applicata (1923 -)
https://doi.org/10.1007/s10231-015-0518-7