Search results for "geodesic"

showing 10 items of 131 documents

The constant osculating rank of the Wilking manifold

2008

We prove that the osculating rank of the Wilking manifold V3 = (SO (3) × SU (3)) / U• (2), endowed with the metric over(g, )1, equals 2. The knowledge of the osculating rank allows us to solve the differential equation of the Jacobi vector fields. These results can be applied to determine the area and the volume of geodesic spheres and balls. To cite this article: E. Macias-Virgos et al., C. R. Acad. Sci. Paris, Ser. I 346 (2008). © 2007 Academie des sciences.

CombinatoricsGeodesicDifferential equationMathematical analysisMetric (mathematics)Vector fieldGeneral MedicineRank (differential topology)Constant (mathematics)ManifoldMathematicsOsculating circleComptes Rendus Mathematique
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Symbolic Dynamics of Geodesic Flows on Trees

2019

In this chapter, we give a coding of the discrete-time geodesic ow on the nonwandering sets of quotients of locally finite simplicial trees X without terminal vertices by nonelementary discrete subgroups of Aut(X) by a subshift of finite type on a countable alphabet.

CombinatoricsMathematics::Group TheoryMathematics::Dynamical SystemsGeodesicSymbolic dynamicsCountable setAlphabetSubshift of finite typeComputer Science::Formal Languages and Automata TheoryQuotientMathematicsCoding (social sciences)
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A comparison theorem for the mean exit time from a domain in a K�hler manifold

1992

Let M be a Kahler manifold with Ricci and antiholomorphic Ricci curvature bounded from below. Let ω be a domain in M with some bounds on the mean and JN-mean curvatures of its boundary ∂ω. The main result of this paper is a comparison theorem between the Mean Exit Time function defined on ω and the Mean Exit Time from a geodesic ball of the complex projective space ℂℙ n (λ) which involves a characterization of the geodesic balls among the domain ω. In order to achieve this, we prove a comparison theorem for the mean curvatures of hypersurfaces parallel to the boundary of ω, using the Index Lemma for Submanifolds.

Comparison theoremRiemann curvature tensorGeodesicComplex projective spaceMathematical analysisKähler manifoldCurvaturesymbols.namesakesymbolsMathematics::Differential GeometryGeometry and TopologyAnalysisRicci curvatureMathematicsScalar curvatureAnnals of Global Analysis and Geometry
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Volumes of certain small geodesic balls and almost-Hermitian geometry

1984

Let D be the characteristic connection of an almost-Hermitian manifold, V D m (r) the volume of a small geodesic ball for the connection D and C C D 1 the first non-trivial term of the Taylor expansion of V D m (r). NK-manifolds are characterized in terms of C C D 1 and a family of Hermitian manifolds for which ∫ M C C D 1 dvol is a spectral invariant is given and one proves that C C D 1 and the spectrum of the complex Laplacian, together, determine the class in which a compact Hermitian manifold lines.

Differential geometryGeodesicHermitian manifoldGeometryMathematics::Differential GeometryGeometry and TopologyAlgebraic geometryInvariant (mathematics)Mathematics::Symplectic GeometryHermitian matrixLaplace operatorManifoldMathematicsGeometriae Dedicata
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Multicenter solutions in Eddington-inspired Born-Infeld gravity

2020

We find multicenter (Majumdar-Papapetrou type) solutions of Eddington-inspired Born-Infeld gravity coupled to electromagnetic fields governed by a Born-Infeld-like Lagrangian. We construct the general solution for an arbitrary number of centers in equilibrium and then discuss the properties of their one-particle configurations, including the existence of bounces and the regularity (geodesic completeness) of these spacetimes. Our method can be used to construct multicenter solutions in other theories of gravity.

Electromagnetic fieldHigh Energy Physics - TheoryGravity (chemistry)Física-Modelos matemáticosPhysics and Astronomy (miscellaneous)GeodesicFOS: Physical scienceslcsh:AstrophysicsGeneral Relativity and Quantum Cosmology (gr-qc)Type (model theory)01 natural sciencesGeneral Relativity and Quantum Cosmologysymbols.namesakeGeneral Relativity and Quantum CosmologyCompleteness (order theory)0103 physical scienceslcsh:QB460-466Física matemáticalcsh:Nuclear and particle physics. Atomic energy. Radioactivity010306 general physicsEngineering (miscellaneous)Mathematical physicsPhysics010308 nuclear & particles physicsHigh Energy Physics - Theory (hep-th)symbolslcsh:QC770-798Lagrangian
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The isoperimetric inequality and the geodesic spheres. Some geometric consequences

1986

Geodesic domeGeodesiclawComplex projective spaceMathematical analysisSPHERESRiemannian manifoldIsoperimetric inequalityIsoperimetric dimensionMathematicslaw.invention
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Non-equivariant cylindrical contact homology

2013

It was pointed out by Eliashberg in his ICM 2006 plenary talk that the integrable systems of rational Gromov-Witten theory very naturally appear in the rich algebraic formalism of symplectic field theory (SFT). Carefully generalizing the definition of gravitational descendants from Gromov-Witten theory to SFT, one can assign to every contact manifold a Hamiltonian system with symmetries on SFT homology and the question of its integrability arises. While we have shown how the well-known string, dilaton and divisor equations translate from Gromov-Witten theory to SFT, the next step is to show how genus-zero topological recursion translates to SFT. Compatible with the example of SFT of closed …

Geodesic010102 general mathematicsHomology (mathematics)Topology01 natural sciencesHamiltonian system0103 physical sciencesHomogeneous spaceEquivariant mapDilaton010307 mathematical physicsGeometry and Topology0101 mathematicsAlgebraic numberMathematics::Symplectic GeometrySymplectic geometryMathematicsJournal of Symplectic Geometry
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Recovery of time-dependent coefficients from boundary data for hyperbolic equations

2019

We study uniqueness of the recovery of a time-dependent magnetic vector-valued potential and an electric scalar-valued potential on a Riemannian manifold from the knowledge of the Dirichlet to Neumann map of a hyperbolic equation. The Cauchy data is observed on time-like parts of the space-time boundary and uniqueness is proved up to the natural gauge for the problem. The proof is based on Gaussian beams and inversion of the light ray transform on Lorentzian manifolds under the assumptions that the Lorentzian manifold is a product of a Riemannian manifold with a time interval and that the geodesic ray transform is invertible on the Riemannian manifold.

GeodesicDirichlet-to-Neumann maplight ray transformmagnetic potentialBoundary (topology)CALDERON PROBLEM01 natural sciencesGaussian beamMathematics - Analysis of PDEsFOS: Mathematics111 Mathematics[MATH.MATH-AP]Mathematics [math]/Analysis of PDEs [math.AP]Uniqueness0101 mathematicsMathematics::Symplectic GeometryMathematical PhysicsMathematicsX-ray transformSTABILITYinverse problemsMathematical analysisStatistical and Nonlinear PhysicsRiemannian manifoldX-RAY TRANSFORMWave equationMathematics::Geometric TopologyManifoldTENSOR-FIELDS010101 applied mathematicsUNIQUE CONTINUATIONGeometry and TopologyMathematics::Differential GeometryWAVE-EQUATIONSHyperbolic partial differential equationAnalysis of PDEs (math.AP)
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Estimation of Purkinje trees from electro-anatomical mapping of the left ventricle using minimal cost geodesics

2015

The electrical activation of the heart is a complex physiological process that is essential for the understanding of several cardiac dysfunctions, such as ventricular tachycardia (VT). Nowadays, patient-specific activation times on ventricular chambers can be estimated from electro-anatomical maps, providing crucial information to clinicians for guiding cardiac radio-frequency ablation treatment. However, some relevant electrical pathways such as those of the Purkinje system are very difficult to interpret from these maps due to sparsity of data and the limited spatial resolution of the system. We present here a novel method to estimate these fast electrical pathways from the local activati…

GeodesicHeart VentriclesAction PotentialsHealth InformaticsVentricular tachycardiaSensitivity and SpecificityVentricular Function LeftPurkinje FibersImage Interpretation Computer-AssistedmedicineHumansRadiology Nuclear Medicine and imagingImage resolutionFast marching methodSimulationMathematicsRadiological and Ultrasound Technologybusiness.industryBody Surface Potential MappingProcess (computing)Reproducibility of ResultsPattern recognitionImage Enhancementmedicine.diseaseComputer Graphics and Computer-Aided Designmedicine.anatomical_structureRadiology Nuclear Medicine and imagingVentricleSimulated dataFeasibility StudiesComputer Vision and Pattern RecognitionArtificial intelligencebusinessDistance transformAlgorithmsMedical Image Analysis
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Comparison theorems for the volume of a geodesic ball with a product of space forms as a model

1995

We prove two comparison theorems for the volume of a geodesic ball in a Riemannian manifold taking as a model a geodesic ball in a product of two space forms.

GeodesicMathematical analysisGeodesic mapMathematics::Metric GeometryMathematics::Differential GeometryGeometry and TopologyBall (mathematics)Riemannian manifoldExponential map (Riemannian geometry)Solving the geodesic equationsRicci curvatureScalar curvatureMathematicsJournal of Geometry
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