0000000000803057

AUTHOR

Costante Bellettini

showing 2 related works from this author

Sets with constant normal in Carnot groups: properties and examples

2019

We analyze subsets of Carnot groups that have intrinsic constant normal, as they appear in the blowup study of sets that have finite sub-Riemannian perimeter. The purpose of this paper is threefold. First, we prove some mild regularity and structural results in arbitrary Carnot groups. Namely, we show that for every constant-normal set in a Carnot group its sub-Riemannian-Lebesgue representative is regularly open, contractible, and its topological boundary coincides with the reduced boundary and with the measure-theoretic boundary. We infer these properties from a cone property. Such a cone will be a semisubgroup with nonempty interior that is canonically associated with the normal directio…

Mathematics - Differential GeometryPure mathematicsGeneral MathematicsBoundary (topology)Group Theory (math.GR)Characterization (mathematics)01 natural sciencesContractible spacesymbols.namesakeMathematics - Analysis of PDEsMathematics - Metric GeometryFOS: MathematicsMathematics::Metric Geometry0101 mathematicsMathematicsGroup (mathematics)010102 general mathematicsCarnot groupMetric Geometry (math.MG)53C17 22E25 28A75 49N60 49Q15 53C38Differential Geometry (math.DG)Cone (topology)symbolsCarnot cycleConstant (mathematics)Mathematics - Group TheoryAnalysis of PDEs (math.AP)Commentarii Mathematici Helvetici
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Regularity of sets with constant horizontal normal in the Engel group

2012

In the Engel group with its Carnot group structure we study subsets of locally finite subRiemannian perimeter and possessing constant subRiemannian normal. We prove the rectifiability of such sets: more precisely we show that, in some specific coordinates, they are upper-graphs of entire Lipschitz functions (with respect to the Euclidean distance). However we find that, when they are written as intrinsic horizontal upper-graphs with respect to the direction of the normal, then the function defining the set might even fail to be continuous. Nevertheless, we can prove that one can always find other horizontal directions for which the set is the intrinsic horizontal upper-graph of a function t…

Mathematics - Differential GeometryStatistics and ProbabilityClass (set theory)Pure mathematicsStructure (category theory)Group Theory (math.GR)Analysis; Statistics and Probability; Geometry and Topology; Statistics Probability and UncertaintyMathematics - Analysis of PDEsMathematics - Metric GeometryFOS: MathematicsMathematics::Metric GeometryEngel groupMathematicsta111StatisticsCarnot groupMetric Geometry (math.MG)Function (mathematics)Lipschitz continuityEuclidean distanceDifferential Geometry (math.DG)Probability and UncertaintyGeometry and TopologyStatistics Probability and UncertaintyConstant (mathematics)Mathematics - Group TheoryAnalysisAnalysis of PDEs (math.AP)Communications in Analysis and Geometry
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