Search results for " differential geometry"

showing 8 items of 148 documents

Extremal polynomials in stratified groups

2018

We introduce a family of extremal polynomials associated with the prolongation of a stratified nilpotent Lie algebra. These polynomials are related to a new algebraic characterization of abnormal subriemannian geodesics in stratified nilpotent Lie groups. They satisfy a set of remarkable structure relations that are used to integrate the adjoint equations.

Statistics and Probabilityextremal polynomialsMathematics - Differential GeometryPure mathematicsGeodesicStructure (category theory)Group Theory (math.GR)Characterization (mathematics)algebra01 natural sciencesdifferentiaaligeometriaMathematics - Analysis of PDEsMathematics - Metric Geometry53C17FOS: Mathematics0101 mathematicsAlgebraic numberMathematics - Differential Geometry; Mathematics - Differential Geometry; Mathematics - Analysis of PDEs; Mathematics - Group Theory; Mathematics - Metric Geometry; Mathematics - Optimization and Control; 53C17; 49K30; 17B70Mathematics - Optimization and ControlMathematics010102 general mathematicsStatisticsta111polynomitProlongation53C17 49K30 17B70Lie groupMetric Geometry (math.MG)abnormal extremals010101 applied mathematicsNilpotent Lie algebraNilpotentsub-Riemannian geometryabnormal extremals extremal polynomials Carnot groups sub-Riemannian geometryAbnormal extremals; Carnot groups; Extremal polynomials; Sub-Riemannian geometry; Analysis; Statistics and Probability; Geometry and Topology; Statistics Probability and UncertaintyDifferential Geometry (math.DG)Optimization and Control (math.OC)Carnot groups17B70Probability and UncertaintyGeometry and TopologyStatistics Probability and UncertaintyMathematics - Group TheoryAnalysisAnalysis of PDEs (math.AP)Mathematics - Differential Geometry; Mathematics - Differential Geometry; Mathematics - Analysis of PDEs; Mathematics - Group Theory; Mathematics - Metric Geometry; Mathematics - Optimization and Control; 53C17 49K30 17B7049K30
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Constant angle surfaces in 4-dimensional Minkowski space

2019

Abstract We first define a complex angle between two oriented spacelike planes in 4-dimensional Minkowski space, and then study the constant angle surfaces in that space, i.e. the oriented spacelike surfaces whose tangent planes form a constant complex angle with respect to a fixed spacelike plane. This notion is the natural Lorentzian analogue of the notion of constant angle surfaces in 4-dimensional Euclidean space. We prove that these surfaces have vanishing Gauss and normal curvatures, obtain representation formulas for the constant angle surfaces with regular Gauss maps and construct constant angle surfaces using PDE’s methods. We then describe their invariants of second order and show…

Surface (mathematics)Mathematics - Differential GeometryGauss mapPlane (geometry)Euclidean space53C40 53C42 53C50010102 general mathematicsMathematical analysisGeneral Physics and AstronomyTangentSpace (mathematics)01 natural sciencesDifferential Geometry (math.DG)0103 physical sciencesMinkowski spaceFOS: Mathematics010307 mathematical physicsGeometry and Topology0101 mathematicsConstant (mathematics)Mathematical PhysicsMathematics
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On the range of the attenuated ray transform for unitary connections

2013

We describe the range of the attenuated ray transform of a unitary connection on a simple surface acting on functions and 1-forms. We use this to determine the range of the ray transform acting on symmetric tensor fields.

Surface (mathematics)Mathematics - Differential Geometryray transformGeneral MathematicsAstrophysics::High Energy Astrophysical PhenomenaMathematical analysista111Unitary stateConnection (mathematics)Range (mathematics)Mathematics - Analysis of PDEsDifferential Geometry (math.DG)Simple (abstract algebra)Quantum mechanicsFOS: MathematicsSymmetric tensorAnalysis of PDEs (math.AP)Mathematics
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Abelian varieties and theta functions associated to compact Riemannian manifolds; constructions inspired by superstring theory

2012

We look into a construction of principal abelian varieties attached to certain spin manifolds, due to Witten and Moore-Witten around 2000 and try to place it in a broader framework. This is related to Weil intermediate Jacobians but it also suggests to associate abelian varieties to polarized even weight Hodge structures. The latter construction can also be explained in terms of algebraic groups which might be useful from the point of view of Tannakian categories. The constructions depend on moduli much as in Teichm\"uller theory although the period maps in general are only real analytic. One of the nice features is how the index for certain differential operators canonically associated to …

Teichmüller spaceMathematics - Differential GeometryPure mathematicsMathematics(all)Intermediate JacobianGeneral MathematicsFOS: Physical sciencesTheta functionDirac operatorModulisymbols.namesakeMathematics - Algebraic GeometryMathematics::Algebraic Geometry14K10 14C30 19K56FOS: MathematicsAbelian groupAlgebraic Geometry (math.AG)Mathematical PhysicsMathematicsApplied MathematicsSuperstring theoryMathematical Physics (math-ph)AlgebraDifferential Geometry (math.DG)symbolsAtiyah–Singer index theoremJournal de Mathématiques Pures et Appliquées
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Spectral rigidity and invariant distributions on Anosov surfaces

2014

This article considers inverse problems on closed Riemannian surfaces whose geodesic flow is Anosov. We prove spectral rigidity for any Anosov surface and injectivity of the geodesic ray transform on solenoidal 2-tensors. We also establish surjectivity results for the adjoint of the geodesic ray transform on solenoidal tensors. The surjectivity results are of independent interest and imply the existence of many geometric invariant distributions on the unit sphere bundle. In particular, we show that on any Anosov surface $(M,g)$, given a smooth function $f$ on $M$ there is a distribution in the Sobolev space $H^{-1}(SM)$ that is invariant under the geodesic flow and whose projection to $M$ i…

Unit sphereMathematics - Differential GeometryPure mathematicsAlgebra and Number TheorySolenoidal vector fieldGeodesicisospectral manifoldsDynamical Systems (math.DS)Inverse problemSobolev spaceRigidity (electromagnetism)Mathematics - Analysis of PDEsmath.DGDifferential Geometry (math.DG)conjugate-pointsBundleGeodesic flowFOS: MathematicsGeometry and TopologyMathematics - Dynamical SystemsAnalysismath.APmath.DSMathematicsAnalysis of PDEs (math.AP)
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An Inverse Problem for the Relativistic Boltzmann Equation

2020

We consider an inverse problem for the Boltzmann equation on a globally hyperbolic Lorentzian spacetime $(M,g)$ with an unknown metric $g$. We consider measurements done in a neighbourhood $V\subset M$ of a timelike path $\mu$ that connects a point $x^-$ to a point $x^+$. The measurements are modelled by a source-to-solution map, which maps a source supported in $V$ to the restriction of the solution to the Boltzmann equation to the set $V$. We show that the source-to-solution map uniquely determines the Lorentzian spacetime, up to an isometry, in the set $I^+(x^-)\cap I^-(x^+)\subset M$. The set $I^+(x^-)\cap I^-(x^+)$ is the intersection of the future of the point $x^-$ and the past of th…

mallintaminenMathematics - Differential GeometrymatematiikkaFOS: Physical sciencesStatistical and Nonlinear PhysicsyhtälötMathematical Physics (math-ph)hiukkasfysiikkaBoltzmannin yhtälöinversio-ongelmattiiviin aineen fysiikkaBoltzmann equationMathematics - Analysis of PDEsDifferential Geometry (math.DG)111 MathematicsFOS: MathematicsMathematical PhysicsAnalysis of PDEs (math.AP)
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On one-dimensionality of metric measure spaces

2019

In this paper, we prove that a metric measure space which has at least one open set isometric to an interval, and for which the (possibly non-unique) optimal transport map exists from any absolutely continuous measure to an arbitrary measure, is a one-dimensional manifold (possibly with boundary). As an immediate corollary we obtain that if a metric measure space is a very strict $CD(K,N)$ -space or an essentially non-branching $MCP(K,N)$-space with some open set isometric to an interval, then it is a one-dimensional manifold. We also obtain the same conclusion for a metric measure space which has a point in which the Gromov-Hausdorff tangent is unique and isometric to the real line, and fo…

metric measure spacesMathematics - Differential GeometryApplied MathematicsGeneral MathematicsOpen setBoundary (topology)Metric Geometry (math.MG)Space (mathematics)53C23Measure (mathematics)metriset avaruudetManifoldCombinatoricsdifferentiaaligeometriaRicci curvatureDifferential Geometry (math.DG)optimal transportMathematics - Metric GeometryMetric (mathematics)FOS: MathematicsmittateoriaGromov--Hausdorff tangentsReal lineRicci curvatureMathematics
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A sharp stability estimate for tensor tomography in non-positive curvature

2021

Funder: University of Cambridge

osittaisdifferentiaaliyhtälötMathematics - Differential GeometryGeodesicGeneral Mathematics010102 general mathematicsMathematical analysisBoundary (topology)Curvature01 natural sciencesinversio-ongelmatTensor field010101 applied mathematicsmath.DGMathematics - Analysis of PDEsDifferential Geometry (math.DG)Simply connected spaceFOS: MathematicsNon-positive curvatureTensor0101 mathematicsConvex functionComputingMilieux_MISCELLANEOUSmath.APMathematicsAnalysis of PDEs (math.AP)
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