Search results for "35K20"

showing 4 items of 4 documents

Perron's method for the porous medium equation

2016

O. Perron introduced his celebrated method for the Dirichlet problem for harmonic functions in 1923. The method produces two solution candidates for given boundary values, an upper solution and a lower solution. A central issue is then to determine when the two solutions are actually the same function. The classical result in this direction is Wiener’s resolutivity theorem: the upper and lower solutions coincide for all continuous boundary values. We discuss the resolutivity theorem and the related notions for the porous medium equation ut −∆u = 0

Dirichlet problemApplied MathematicsGeneral Mathematicsta111010102 general mathematicsMathematical analysiscomparison principlePerron methodFunction (mathematics)Primary 35K55 Secondary 35K65 35K20 31C45obstaclesPorous medium equation01 natural sciencesBoundary values010101 applied mathematicsMathematics - Analysis of PDEsHarmonic functionFOS: Mathematics0101 mathematicsPorous mediumPerron methodAnalysis of PDEs (math.AP)Mathematics
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Dependence of the layer heat potentials upon support perturbations

2023

We prove that the integral operators associated with the layer heat potentials depend smoothly upon a parametrization of the support of integration. The analysis is carried out in the optimal H\"older setting.

Mathematics - Analysis of PDEsFOS: Mathematics31B10 47G10 35K05 35K20Analysis of PDEs (math.AP)
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Boundary regularity for degenerate and singular parabolic equations

2013

We characterise regular boundary points of the parabolic $p$-Laplacian in terms of a family of barriers, both when $p>2$ and $1<p<2$. Due to the fact that $p\not=2$, it turns out that one can multiply the $p$-Laplace operator by a positive constant, without affecting the regularity of a boundary point. By constructing suitable families of barriers, we give some simple geometric conditions that ensure the regularity of boundary points.

Mathematics - Analysis of PDEsSimple (abstract algebra)Applied MathematicsDegenerate energy levelsMathematical analysis35K20 31B25 35B65 35K65 35K67 35K92FOS: MathematicsBoundary (topology)Mathematics::Spectral TheoryParabolic partial differential equationAnalysisMathematicsAnalysis of PDEs (math.AP)
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Boundary Regularity for the Porous Medium Equation

2018

We study the boundary regularity of solutions to the porous medium equation $u_t = \Delta u^m$ in the degenerate range $m>1$. In particular, we show that in cylinders the Dirichlet problem with positive continuous boundary data on the parabolic boundary has a solution which attains the boundary values, provided that the spatial domain satisfies the elliptic Wiener criterion. This condition is known to be optimal, and it is a consequence of our main theorem which establishes a barrier characterization of regular boundary points for general -- not necessarily cylindrical -- domains in ${\bf R}^{n+1}$. One of our fundamental tools is a new strict comparison principle between sub- and superpara…

Pure mathematicsComplex systemBoundary (topology)Mathematical AnalysisCharacterization (mathematics)01 natural sciencesMathematics - Analysis of PDEsMathematics (miscellaneous)Matematisk analysporous medium equationFOS: Mathematics0101 mathematicsSpatial domainMathematicsosittaisdifferentiaaliyhtälötDirichlet problemMechanical Engineering010102 general mathematicsDegenerate energy levels35K20 (Primary) 35B51 35B65 35K10 35K55 35K65 (Secondary)010101 applied mathematicsRange (mathematics)boundary regularityPorous mediumAnalysisAnalysis of PDEs (math.AP)Archive for Rational Mechanics and Analysis
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