Search results for "6b"

showing 10 items of 66 documents

Finitely fibered Rosenthal compacta and trees

2009

We study some topological properties of trees with the interval topology. In particular, we characterize trees which admit a 2-fibered compactification and we present two examples of trees whose one-point compactifications are Rosenthal compact with certain renorming properties of their spaces of continuous functions.

Pure mathematics54D30 46B03 46E15 54C35 54G12Algebra and Number TheoryApplied MathematicsGeneral Topology (math.GN)Fibered knotMathematics::General TopologyFunctional Analysis (math.FA)Mathematics - Functional AnalysisComputational MathematicsFOS: MathematicsCompactification (mathematics)Geometry and TopologyAnalysisMathematics - General TopologyMathematicsRevista de la Real Academia de Ciencias Exactas, Fisicas y Naturales. Serie A. Matematicas

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Envelopes of open sets and extending holomorphic functions on dual Banach spaces

2010

We investigate certain envelopes of open sets in dual Banach spaces which are related to extending holomorphic functions. We give a variety of examples of absolutely convex sets showing that the extension is in many cases not possible. We also establish connections to the study of iterated weak* sequential closures of convex sets in the dual of separable spaces.

Pure mathematicsAlgebra of holomorphic functionsConvex setBanach spaceOpen set46E5046B10Balanced setFOS: MathematicsAbsolutely convex setComplex Variables (math.CV)MathematicsConvex analysisDiscrete mathematicsMathematics - Complex VariablesApplied MathematicsFunctional Analysis (math.FA)46E50; 46B20; 46B10Mathematics - Functional Analysis46B20Absolutely convex setInterpolation spaceReflexive spaceAnalysisBoundedly regular setDual pair

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Dominated polynomials on infinite dimensional spaces

2008

The aim of this paper is to prove a stronger version of a conjecture on the existence of non-dominated scalar-valued m-homogeneous polynomials (m>=3) on arbitrary infinite dimensional Banach spaces.

Pure mathematicsConjectureApplied MathematicsGeneral Mathematics46B15; 46G25Eberlein–Šmulian theoremMathematical analysisBanach spaceBanach manifoldFunctional Analysis (math.FA)Mathematics - Functional AnalysisFOS: Mathematics46G2546B15Mathematics

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Characterisation of upper gradients on the weighted Euclidean space and applications

2020

In the context of Euclidean spaces equipped with an arbitrary Radon measure, we prove the equivalence among several different notions of Sobolev space present in the literature and we characterise the minimal weak upper gradient of all Lipschitz functions.

Pure mathematicsEuclidean spaceApplied MathematicsMathematics::Analysis of PDEsContext (language use)Sobolev spaceLipschitz continuityFunctional Analysis (math.FA)46E35 53C23 26B05differentiaaligeometriaSobolev spaceMathematics - Functional AnalysisMathematics - Analysis of PDEsRadon measureEuclidean geometryFOS: MathematicsWeighted Euclidean spaceDecomposability bundlefunktionaalianalyysiEquivalence (measure theory)MathematicsAnalysis of PDEs (math.AP)

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Improved Bounds for Hermite–Hadamard Inequalities in Higher Dimensions

2019

Let $\Omega \subset \mathbb{R}^n$ be a convex domain and let $f:\Omega \rightarrow \mathbb{R}$ be a positive, subharmonic function (i.e. $\Delta f \geq 0$). Then $$ \frac{1}{|\Omega|} \int_{\Omega}{f dx} \leq \frac{c_n}{ |\partial \Omega| } \int_{\partial \Omega}{ f d\sigma},$$ where $c_n \leq 2n^{3/2}$. This inequality was previously only known for convex functions with a much larger constant. We also show that the optimal constant satisfies $c_n \geq n-1$. As a byproduct, we establish a sharp geometric inequality for two convex domains where one contains the other $ \Omega_2 \subset \Omega_1 \subset \mathbb{R}^n$: $$ \frac{|\partial \Omega_1|}{|\Omega_1|} \frac{| \Omega_2|}{|\partial \Ome…

Pure mathematicsInequalitymedia_common.quotation_subject01 natural sciencesConvexitysymbols.namesakeMathematics - Metric GeometrySettore MAT/05 - Analisi MatematicaHadamard transformHermite–Hadamard inequality0103 physical sciencesClassical Analysis and ODEs (math.CA)FOS: Mathematics[MATH.MATH-AP]Mathematics [math]/Analysis of PDEs [math.AP]Hermite-Hadamard inequality subharmonic functions convexity.0101 mathematicsComputingMilieux_MISCELLANEOUSsubharmonic functionsmedia_commonMathematicsSubharmonic functionHermite polynomialsconvexity010102 general mathematicsMetric Geometry (math.MG)Functional Analysis (math.FA)Mathematics - Functional AnalysisMSC : 26B25 28A75 31A05 31B05 35B50Mathematics::LogicHermite-Hadamard inequalityDifferential geometryMathematics - Classical Analysis and ODEsFourier analysissymbols010307 mathematical physicsGeometry and TopologyThe Journal of Geometric Analysis

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On the interior regularity of weak solutions to the 2-D incompressible Euler equations

2016

We study whether some of the non-physical properties observed for weak solutions of the incompressible Euler equations can be ruled out by studying the vorticity formulation. Our main contribution is in developing an interior regularity method in the spirit of De Giorgi–Nash–Moser, showing that local weak solutions are exponentially integrable, uniformly in time, under minimal integrability conditions. This is a Serrin-type interior regularity result $$\begin{aligned} u \in L_\mathrm{loc}^{2+\varepsilon }(\Omega _T) \implies \mathrm{local\ regularity} \end{aligned}$$ for weak solutions in the energy space $$L_t^\infty L_x^2$$ , satisfying appropriate vorticity estimates. We also obtain impr…

Pure mathematicsIntegrable systemDimension (graph theory)Mathematics::Analysis of PDEsContext (language use)yhtälötSpace (mathematics)01 natural sciencessymbols.namesakeMathematics - Analysis of PDEs35Q31 (Primary) 76B03 35B65 35Q30 (Secondary)weak solutions0103 physical sciencesinterior regularityBoundary value problem0101 mathematicsMathematicsmatematiikkaApplied Mathematics010102 general mathematicsVorticityEuler equationsEuler equationssymbols010307 mathematical physicsAnalysisEnergy (signal processing)Calculus of Variations and Partial Differential Equations

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Approximation by uniform domains in doubling quasiconvex metric spaces

2020

We show that any bounded domain in a doubling quasiconvex metric space can be approximated from inside and outside by uniform domains.

Pure mathematicsPrimary 30L99. Secondary 46E35 26B30Algebraic geometry01 natural sciencesDomain (mathematical analysis)funktioteoriaQuasiconvex functionMathematics::Group TheoryquasiconvexityMathematics - Metric Geometry0103 physical sciencesFOS: Mathematics0101 mathematicsuniform domainComputer Science::DatabasesMathematicsPartial differential equationFunctional analysis010102 general mathematicsMetric Geometry (math.MG)General Medicinemetriset avaruudetMetric spaceBounded functionSobolev extension010307 mathematical physicsfunktionaalianalyysi

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The Choquet and Kellogg properties for the fine topology when $p=1$ in metric spaces

2017

In the setting of a complete metric space that is equipped with a doubling measure and supports a Poincar´e inequality, we prove the fine Kellogg property, the quasi-Lindel¨of principle, and the Choquet property for the fine topology in the case p = 1. Dans un contexte d’espace m´etrique complet muni d’une mesure doublante et supportant une in´egalit´e de Poincar´e, nous d´emontrons la propri´et´e fine de Kellogg, le quasi-principe de Lindel¨of, et la propri´et´e de Choquet pour la topologie fine dans le cas p = 1. peerReviewed

Pure mathematicsProperty (philosophy)1-fine topologyGeneral MathematicsPoincaré inequalityMathematics::General Topology01 natural sciencesMeasure (mathematics)Complete metric spacefunktioteoriasymbols.namesakeMathematics - Metric GeometryFOS: Mathematics0101 mathematicsMathematicsApplied Mathematics010102 general mathematicsta111Metric Geometry (math.MG)30L99 31E05 26B30function of bounded variationfine Kellogg propertymetriset avaruudet010101 applied mathematicsMetric spacemetric measure spacequasi-Lindelöf principleChoquet propertysymbolspotentiaaliteoriaFine topology

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Indecomposable sets of finite perimeter in doubling metric measure spaces

2020

We study a measure-theoretic notion of connectedness for sets of finite perimeter in the setting of doubling metric measure spaces supporting a weak $(1,1)$-Poincar\'{e} inequality. The two main results we obtain are a decomposition theorem into indecomposable sets and a characterisation of extreme points in the space of BV functions. In both cases, the proof we propose requires an additional assumption on the space, which is called isotropicity and concerns the Hausdorff-type representation of the perimeter measure.

Pure mathematicsSocial connectednessvariaatiolaskentaSpace (mathematics)01 natural sciencesMeasure (mathematics)differentiaaligeometriaPerimeterMathematics - Analysis of PDEsMathematics - Metric Geometry0103 physical sciencesFOS: Mathematics0101 mathematicsExtreme pointRepresentation (mathematics)MathematicsApplied Mathematics010102 general mathematicsdifferential equationsMetric Geometry (math.MG)metriset avaruudetFunctional Analysis (math.FA)Mathematics - Functional AnalysisMetric (mathematics)mittateoria010307 mathematical physicsvariation26B30 53C23Indecomposable moduleAnalysisAnalysis of PDEs (math.AP)Calculus of Variations and Partial Differential Equations

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Riesz and Wolff potentials and elliptic equations in variable exponent weak Lebesgue spaces

2015

Submitted by Alexandre Almeida (jaralmeida@ua.pt) on 2015-11-12T11:41:07Z No. of bitstreams: 1 RieszWolff_RIA.pdf: 159825 bytes, checksum: d99abdf3c874f47195619a31ff5c12c7 (MD5) Approved for entry into archive by Bella Nolasco(bellanolasco@ua.pt) on 2015-11-17T12:18:41Z (GMT) No. of bitstreams: 1 RieszWolff_RIA.pdf: 159825 bytes, checksum: d99abdf3c874f47195619a31ff5c12c7 (MD5) Made available in DSpace on 2015-11-17T12:18:41Z (GMT). No. of bitstreams: 1 RieszWolff_RIA.pdf: 159825 bytes, checksum: d99abdf3c874f47195619a31ff5c12c7 (MD5) Previous issue date: 2015-04

Pure mathematicsWolff potentialScale (ratio)Weak Lebesgue spaceVariable exponentMathematics::Classical Analysis and ODEsLebesgue's number lemmaNon-standard growth conditionIntegrability of solutionssymbols.namesakeMathematics - Analysis of PDEsReal interpolationFOS: MathematicsLp spaceMathematicsLaplace's equationMathematics::Functional AnalysisVariable exponentIntegrability estimatesRiesz potentialApplied MathematicsMathematical analysisFunctional Analysis (math.FA)Mathematics - Functional AnalysissymbolsRiesz potential47H99 (Primary) 46B70 46E30 35J60 31C45 (Secondary)Analysis of PDEs (math.AP)

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