Search results for "53"

showing 10 items of 2908 documents

A rigidity problem on the round sphere

2015

We consider a class of overdetermined problems in rotationally symmetric spaces, which reduce to the classical Serrin's overdetermined problem in the case of the Euclidean space. We prove some general integral identities for rotationally symmetric spaces which imply a rigidity result in the case of the round sphere.

Mathematics - Differential GeometryPure mathematicsEuclidean spaceApplied MathematicsGeneral Mathematics010102 general mathematicsMathematics::Analysis of PDEsComputer Science::Numerical Analysis01 natural sciencesOverdetermined systemrotationally symmetric spaceMathematics - Analysis of PDEsRigidity (electromagnetism)rigidityDifferential Geometry (math.DG)Settore MAT/05 - Analisi Matematica0103 physical sciencesRound sphereFOS: MathematicsPrimary 35R01 35N25 Secondary: 53C24 58J05Overdetermined PDE010307 mathematical physics0101 mathematicsAnalysis of PDEs (math.AP)Mathematics

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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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Counting and equidistribution in Heisenberg groups

2014

We strongly develop the relationship between complex hyperbolic geometry and arithmetic counting or equidistribution applications, that arises from the action of arithmetic groups on complex hyperbolic spaces, especially in dimension $2$. We prove a Mertens' formula for the integer points over a quadratic imaginary number fields $K$ in the light cone of Hermitian forms, as well as an equidistribution theorem of the set of rational points over $K$ in Heisenberg groups. We give a counting formula for the cubic points over $K$ in the complex projective plane whose Galois conjugates are orthogonal and isotropic for a given Hermitian form over $K$, and a counting and equidistribution result for …

Mathematics - Differential GeometryPure mathematicsGeneral MathematicsHyperbolic geometryMathematics::Number Theory[MATH.MATH-DS]Mathematics [math]/Dynamical Systems [math.DS]11E39 11F06 11N45 20G20 53C17 53C22 53C55chainEquidistribution theorem01 natural sciencesHeisenberg groupequidistributioncommon perpendicularIntegerLight cone0103 physical sciencesHeisenberg groupcubic point0101 mathematicsCygan distanceMertens formulaComplex projective planeMathematicsDiscrete mathematicsAMS codes: 11E39 11F06 11N45 20G20 53C17 53C22 53C55Mathematics - Number TheorySesquilinear formHeisenberg groups010102 general mathematicsHermitian matrixcomplex hyperbolic geometry[MATH.MATH-NT]Mathematics [math]/Number Theory [math.NT]sub-Riemannian geometry[MATH.MATH-DG]Mathematics [math]/Differential Geometry [math.DG]counting010307 mathematical physics

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Euclidean spaces as weak tangents of infinitesimally Hilbertian metric spaces with Ricci curvature bounded below

2013

We show that in any infinitesimally Hilbertian CD* (K,N)-space at almost every point there exists a Euclidean weak tangent, i.e., there exists a sequence of dilations of the space that converges to Euclidean space in the pointed measured Gromov-Hausdorff topology. The proof follows by considering iterated tangents and the splitting theorem for infinitesimally Hilbertian CD* (0,N)-spaces.

Mathematics - Differential GeometryPure mathematicsGeneral MathematicsSpace (mathematics)01 natural sciencesMeasure (mathematics)Mathematics - Metric Geometry0103 physical sciencesFOS: MathematicsMathematics::Metric Geometry0101 mathematics[MATH.MATH-MG]Mathematics [math]/Metric Geometry [math.MG]tangent spaces; non-smooth geometryRicci curvatureMathematics51F99-53B99non-smooth geometrySequenceEuclidean spaceApplied MathematicsHilbertian spaces010102 general mathematicstangent spacesTangentMetric Geometry (math.MG)Euclidean spacesDifferential Geometry (math.DG)[MATH.MATH-DG]Mathematics [math]/Differential Geometry [math.DG]weak tangentsBounded functionSplitting theorem010307 mathematical physics

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Tensor tomography on Cartan–Hadamard manifolds

2017

We study the geodesic X-ray transform on Cartan-Hadamard manifolds, and prove solenoidal injectivity of this transform acting on functions and tensor fields of any order. The functions are assumed to be exponentially decaying if the sectional curvature is bounded, and polynomially decaying if the sectional curvature decays at infinity. This work extends the results of Lehtonen (2016) to dimensions $n \geq 3$ and to the case of tensor fields of any order.

Mathematics - Differential GeometryPure mathematicsGeodesic01 natural sciencesTheoretical Computer ScienceTensor fieldHadamard transform44A12 53C21 53C22 45Q05Euclidean geometryFOS: MathematicsSectional curvatureTensor0101 mathematicsMathematical PhysicsMathematicsCartan-Hadamard manifoldsSolenoidal vector fieldApplied Mathematics010102 general mathematicsComputer Science Applications010101 applied mathematicsDifferential Geometry (math.DG)Bounded functionSignal Processingtensor tomographyMathematics::Differential GeometryInverse Problems

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X-ray transforms in pseudo-Riemannian geometry

2016

We study the problem of recovering a function on a pseudo-Riemannian manifold from its integrals over all null geodesics in three geometries: pseudo-Riemannian products of Riemannian manifolds, Minkowski spaces and tori. We give proofs of uniqueness anc characterize non-uniqueness in different settings. Reconstruction is sometimes possible if the signature $(n_1,n_2)$ satisfies $n_1\geq1$ and $n_2\geq2$ or vice versa and always when $n_1,n_2\geq2$. The proofs are based on a Pestov identity adapted to null geodesics (product manifolds) and Fourier analysis (other geometries). The problem in a Minkowski space of any signature is a special case of recovering a function in a Euclidean space fro…

Mathematics - Differential GeometryPure mathematicsGeodesic44A12 53C50 11D09Riemannian geometry01 natural sciencespseudo-Riemannian manifoldsinversio-ongelmatsymbols.namesakeray transformsMathematics - Analysis of PDEsMinkowski spaceFOS: Mathematics0101 mathematicsMathematicsEuclidean space010102 general mathematicsNull (mathematics)Manifold010101 applied mathematicsnull geodesicsDifferential Geometry (math.DG)Differential geometryProduct (mathematics)symbolsGeometry and TopologyMathematics::Differential GeometryAnalysis of PDEs (math.AP)

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Slopes of Kantorovich potentials and existence of optimal transport maps in metric measure spaces

2014

We study optimal transportation with the quadratic cost function in geodesic metric spaces satisfying suitable non-branching assumptions. We introduce and study the notions of slope along curves and along geodesics and we apply the latter to prove suitable generalizations of Brenier's theorem of existence of optimal maps.

Mathematics - Differential GeometryPure mathematicsGeodesicApplied MathematicsInjective metric spacenon-brancingMathematical analysis49Q20 53C23Metric Geometry (math.MG)Measure (mathematics)geodesic metric spaceConvex metric spaceIntrinsic metricMetric spaceMathematics - Metric GeometryDifferential Geometry (math.DG)Metric (mathematics)FOS: Mathematicsupper gradientMetric mapoptimal transportationMathematics

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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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Regularity properties of spheres in homogeneous groups

2015

We study left-invariant distances on Lie groups for which there exists a one-parameter family of homothetic automorphisms. The main examples are Carnot groups, in particular the Heisenberg group with the standard dilations. We are interested in criteria implying that, locally and away from the diagonal, the distance is Euclidean Lipschitz and, consequently, that the metric spheres are boundaries of Lipschitz domains in the Euclidean sense. In the first part of the paper, we consider geodesic distances. In this case, we actually prove the regularity of the distance in the more general context of sub-Finsler manifolds with no abnormal geodesics. Secondly, for general groups we identify an alg…

Mathematics - Differential GeometryPure mathematicsGeodesicjoukot (matematiikka)General MathematicsGroup Theory (math.GR)algebra01 natural sciencessets (mathematics)Homothetic transformationMathematics - Metric Geometry0103 physical sciencesEuclidean geometryFOS: MathematicsHeisenberg groupMathematics::Metric GeometryMathematics (all)spheres0101 mathematicsMathematics28A75 22E25 53C60 53C17 26A16homogeneous groupsmatematiikkamathematicsGroup (mathematics)Applied Mathematicsta111010102 general mathematicsLie groupMetric Geometry (math.MG)Lipschitz continuityAutomorphismDifferential Geometry (math.DG)regularity properties010307 mathematical physicsMathematics - Group TheoryMathematics (all); Applied Mathematics

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A reflection approach to the broken ray transform

2013

We reduce the broken ray transform on some Riemannian manifolds (with corners) to the geodesic ray transform on another manifold, which is obtained from the original one by reflection. We give examples of this idea and present injectivity results for the broken ray transform using corresponding earlier results for the geodesic ray transform. Examples of manifolds where the broken ray transform is injective include Euclidean cones and parts of the spheres $S^n$. In addition, we introduce the periodic broken ray transform and use the reflection argument to produce examples of manifolds where it is injective. We also give counterexamples to both periodic and nonperiodic cases. The broken ray t…

Mathematics - Differential GeometryPure mathematicsGeodesicmatematiikkaGeneral MathematicsAstrophysics::High Energy Astrophysical PhenomenaInjective functionManifold53C65 78A05 (Primary) 35R30 58J32 (Secondary)Mathematics - Analysis of PDEsReflection (mathematics)Differential Geometry (math.DG)Euclidean geometryFOS: MathematicsSPHERESMathematics::Differential GeometryCounterexampleMathematicsbroken ray transformAnalysis of PDEs (math.AP)

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