Search results for " 49Q20"

showing 8 items of 8 documents

Quantitative lower bounds to the Euclidean and the Gaussian Cheeger constants

2020

We provide a quantitative lower bound to the Cheeger constant of a set $\Omega$ in both the Euclidean and the Gaussian settings in terms of suitable asymmetry indexes. We provide examples which show that these quantitative estimates are sharp.

Gaussianmedia_common.quotation_subject01 natural sciencesUpper and lower boundsAsymmetryOmegaCombinatoricsSet (abstract data type)Cheeger sets; Cheeger constant; quantitative inequalitiessymbols.namesakeMathematics - Analysis of PDEsEuclidean geometryFOS: MathematicsMathematics::Metric Geometry0101 mathematicsepäyhtälötMathematicsmedia_common49Q10 49Q20 39B62osittaisdifferentiaaliyhtälöt010102 general mathematicsCheeger constantCheeger setsArticlesCheeger constant (graph theory)010101 applied mathematicssymbolsquantitative inequalitiesAnalysis of PDEs (math.AP)Annales Fennici Mathematici
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Volume growth, capacity estimates, p-parabolicity and sharp integrability properties of p-harmonic Green functions

2023

In a complete metric space equipped with a doubling measure supporting a $p$-Poincar\'e inequality, we prove sharp growth and integrability results for $p$-harmonic Green functions and their minimal $p$-weak upper gradients. We show that these properties are determined by the growth of the underlying measure near the singularity. Corresponding results are obtained also for more general $p$-harmonic functions with poles, as well as for singular solutions of elliptic differential equations in divergence form on weighted $\mathbf{R}^n$ and on manifolds. The proofs are based on a new general capacity estimate for annuli, which implies precise pointwise estimates for $p$-harmonic Green functions…

Mathematics - Analysis of PDEsGeneral MathematicsFOS: MathematicsPrimary: 31C45 Secondary: 30L99 31C12 31C15 31E05 35J08 35J92 46E36 49Q20AnalysisAnalysis of PDEs (math.AP)Journal d'Analyse Mathématique
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Failure of the local-to-global property for CD(K,N) spaces

2016

Given any K and N we show that there exists a compact geodesic metric measure space satisfying locally the CD(0,4) condition but failing CD(K,N) globally. The space with this property is a suitable non convex subset of R^2 equipped with the l^\infty-norm and the Lebesgue measure. Combining many such spaces gives a (non compact) complete geodesic metric measure space satisfying CD(0,4) locally but failing CD(K,N) globally for every K and N.

Mathematics - Differential GeometryDiscrete mathematicsProperty (philosophy)GeodesicLebesgue measureExistential quantification010102 general mathematicsMetric Geometry (math.MG)Space (mathematics)01 natural sciencesMeasure (mathematics)Theoretical Computer ScienceMathematics (miscellaneous)Mathematics - Metric GeometryDifferential Geometry (math.DG)0103 physical sciencesMetric (mathematics)FOS: Mathematics010307 mathematical physics0101 mathematics53C23 (Primary) 28A33 49Q20 (Secondary)MathematicsANNALI SCUOLA NORMALE SUPERIORE - CLASSE DI SCIENZE
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On the shape of compact hypersurfaces with almost constant mean curvature

2015

The distance of an almost constant mean curvature boundary from a finite family of disjoint tangent balls with equal radii is quantitatively controlled in terms of the oscillation of the scalar mean curvature. This result allows one to quantitatively describe the geometry of volume-constrained stationary sets in capillarity problems.

Mathematics - Differential GeometryMean curvatureOscillationApplied MathematicsGeneral Mathematics010102 general mathematicsMathematical analysisScalar (mathematics)Boundary (topology)TangentMetric Geometry (math.MG)Disjoint sets01 natural sciences010101 applied mathematicsMathematics - Analysis of PDEsMean curvature capillarity theory quantitative estimates Alexandrov theorem.Differential Geometry (math.DG)Mathematics - Metric Geometry49Q10 49Q20 53A10FOS: MathematicsMathematics::Differential Geometry0101 mathematicsConstant (mathematics)Analysis of PDEs (math.AP)Mathematics
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Interpolated measures with bounded density in metric spaces satisfying the curvature-dimension conditions of Sturm

2011

We construct geodesics in the Wasserstein space of probability measure along which all the measures have an upper bound on their density that is determined by the densities of the endpoints of the geodesic. Using these geodesics we show that a local Poincar\'e inequality and the measure contraction property follow from the Ricci curvature bounds defined by Sturm. We also show for a large class of convex functionals that a local Poincar\'e inequality is implied by the weak displacement convexity of the functional.

Mathematics - Differential GeometryPure mathematicsGeodesicPoincaré inequalityMetric measure spaceCurvature01 natural sciencesConvexitysymbols.namesakeMathematics - Analysis of PDEsMathematics - Metric GeometryFOS: MathematicsMathematics::Metric Geometry0101 mathematicsRicci curvatureMathematicsProbability measure010102 general mathematicsta111Measure contraction propertyMetric Geometry (math.MG)53C23 (Primary) 28A33 49Q20 (Secondary)Functional Analysis (math.FA)010101 applied mathematicsMathematics - Functional AnalysisMetric spaceRicci curvatureDifferential Geometry (math.DG)Poincaré inequalityBounded functionsymbolsMathematics::Differential GeometryAnalysisAnalysis of PDEs (math.AP)
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Failure of topological rigidity results for the measure contraction property

2014

We give two examples of metric measure spaces satisfying the measure contraction property MCP(K,N) but having different topological dimensions at different regions of the space. The first one satisfies MCP(0,3) and contains a subset isometric to $\mathbb{R}$, but does not topologically split. The second space satisfies MCP(2,3) and has diameter $\pi$, which is the maximal possible diameter for a space satisfying MCP(N-1,N), but is not a topological spherical suspension. The latter example gives an answer to a question by Ohta.

Mathematics - Differential Geometrymetric measure spacesGeodesicPhysics::Instrumentation and DetectorsQuantitative Biology::Tissues and Organsmeasure contraction propertyMetric Geometry (math.MG)53C23 (Primary) 28A33 49Q20 (Secondary)Ricci curvature lower boundsTopologyPotential theorymaximal diameter theoremnonbranchingRigidity (electromagnetism)Mathematics - Metric GeometryDifferential Geometry (math.DG)splitting theoremFOS: MathematicsSplitting theoremContraction (operator theory)AnalysisMathematicsgeodesics
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Dimensional reduction for energies with linear growth involving the bending moment

2008

A $\Gamma$-convergence analysis is used to perform a 3D-2D dimension reduction of variational problems with linear growth. The adopted scaling gives rise to a nonlinear membrane model which, because of the presence of higher order external loadings inducing a bending moment, may depend on the average in the transverse direction of a Cosserat vector field, as well as on the deformation of the mid-plane. The assumption of linear growth on the energy leads to an asymptotic analysis in the spaces of measures and of functions with bounded variation.

Mathematics(all)Asymptotic analysis49J45 49Q20 74K35dimension reductionGeneral Mathematics01 natural sciencesMathematics - Analysis of PDEsTangent measures; bending moments; dimension reductionFOS: Mathematics[MATH.MATH-AP]Mathematics [math]/Analysis of PDEs [math.AP]0101 mathematicsScalingFunctions of bounded variationMathematicsDeformation (mechanics)Applied Mathematics010102 general mathematicsMathematical analysisTangent measures010101 applied mathematicsNonlinear systemΓ-convergenceDimensional reductionBounded variationBending momentbending momentsVector fieldMSC: 49J45; 49Q20; 74K35Analysis of PDEs (math.AP)
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Existence and almost uniqueness for p -harmonic Green functions on bounded domains in metric spaces

2020

We study ($p$-harmonic) singular functions, defined by means of upper gradients, in bounded domains in metric measure spaces. It is shown that singular functions exist if and only if the complement of the domain has positive capacity, and that they satisfy very precise capacitary identities for superlevel sets. Suitably normalized singular functions are called Green functions. Uniqueness of Green functions is largely an open problem beyond unweighted $\mathbf{R}^n$, but we show that all Green functions (in a given domain and with the same singularity) are comparable. As a consequence, for $p$-harmonic functions with a given pole we obtain a similar comparison result near the pole. Various c…

Pure mathematicsCapacitary potential; Doubling measure; Metric space; p-harmonic Green function; Poincar? inequality; Singular function31C45 (Primary) 30L99 31C15 31E05 35J92 49Q20 (Secondary)Harmonic (mathematics)Mathematical Analysis01 natural sciencesMeasure (mathematics)Domain (mathematical analysis)Mathematics - Analysis of PDEscapacitary potentialMatematisk analysFOS: MathematicsUniqueness0101 mathematicsMathematicsComplement (set theory)p-harmonicApplied Mathematics010102 general mathematicsmetric spacemetriset avaruudet010101 applied mathematicsMetric spacePoincaré inequalityBounded functionMetric (mathematics)doubling measurepotentiaaliteoriasingular functiongreen functionAnalysisAnalysis of PDEs (math.AP)
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