Search results for "Tensor field"

showing 10 items of 23 documents

Vectors, Tensors, Manifolds and Special Relativity

2015

Assuming that the reader is familiar with the notion of vectors, within a few pages, with a few examples, the reader will get to be familiar with the generic picture of tensors. With the specific notions given in this chapter, the reader will be able to understand more advanced tensor courses with no further effort. The transition between tensor algebra and tensor calculus is done naturally with a very familiar example. The notion of manifold and a few basic key aspects on Special Relativity are also presented.

AlgebraTensor productComputer scienceComputingMethodologies_SYMBOLICANDALGEBRAICMANIPULATIONFour-forceTensorTensor algebraIntroduction to the mathematics of general relativityTensor calculusSpecial relativity (alternative formulations)Tensor field
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Tensor tomography in periodic slabs

2018

Abstract The X-ray transform on the periodic slab [ 0 , 1 ] × T n , n ≥ 0 , has a non-trivial kernel due to the symmetry of the manifold and presence of trapped geodesics. For tensor fields gauge freedom increases the kernel further, and the X-ray transform is not solenoidally injective unless n = 0 . We characterize the kernel of the geodesic X-ray transform for L 2 -regular m -tensors for any m ≥ 0 . The characterization extends to more general manifolds, twisted slabs, including the Mobius strip as the simplest example.

Geodesicx-ray examinationslab geometrytomography01 natural sciencesinversio-ongelmatTensor fieldsymbols.namesaketomografiaMöbius stripTensor0101 mathematicsMathematical physicsMathematicsinverse problems010102 general mathematicsta111röntgentutkimusSymmetry (physics)Injective functionManifold010101 applied mathematicsKernel (algebra)symbolstensor tomographyX-ray tomographyAnalysisJournal of Functional Analysis
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General invertible transformation and physical degrees of freedom

2017

An invertible field transformation is such that the old field variables correspond one-to-one to the new variables. As such, one may think that two systems that are related by an invertible transformation are physically equivalent. However, if the transformation depends on field derivatives, the equivalence between the two systems is nontrivial due to the appearance of higher derivative terms in the equations of motion. To address this problem, we prove the following theorem on the relation between an invertible transformation and Euler-Lagrange equations: If the field transformation is invertible, then any solution of the original set of Euler-Lagrange equations is mapped to a solution of …

High Energy Physics - TheoryPhysicsPure mathematicsCosmology and Nongalactic Astrophysics (astro-ph.CO)010308 nuclear & particles physicsEquations of motionMaterial derivativeClassical Physics (physics.class-ph)FOS: Physical sciencesPhysics - Classical PhysicsGeneral Relativity and Quantum Cosmology (gr-qc)01 natural sciencesGeneral Relativity and Quantum CosmologyTensor fieldlaw.inventionField transformationInvertible matrixHigh Energy Physics - Theory (hep-th)law0103 physical sciencesEquivalence (formal languages)010306 general physicsField equationScalar fieldAstrophysics - Cosmology and Nongalactic Astrophysics
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Renormalized stress-energy tensor for spin-1/2 fields in expanding universes

2014

We provide an explicit expression for the renormalized expectation value of the stress-energy tensor of a spin-$1/2$ field in a spatially flat FLRW universe. Its computation is based on the extension of the adiabatic regularization method to fermion fields introduced recently in the literature. The tensor is given in terms of UV-finite integrals in momentum space, which involve the mode functions that define the quantum state. As illustrative examples of the method efficiency, we see how to compute the renormalized energy density and pressure in two interesting cosmological scenarios: a de Sitter spacetime and a radiation-dominated universe. In the second case, we explicitly show that the l…

High Energy Physics - TheoryTensor contractionPhysicsNuclear and High Energy PhysicsCosmology and Nongalactic Astrophysics (astro-ph.CO)Quantum field theory in curved spacetimeFOS: Physical sciencesFísicaGeneral Relativity and Quantum Cosmology (gr-qc)General Relativity and Quantum CosmologyTensor fieldGeneral Relativity and Quantum CosmologyClassical mechanicsHigh Energy Physics - Theory (hep-th)De Sitter universeFour-tensorStress–energy tensorTensor densityScalar fieldAstrophysics - Cosmology and Nongalactic AstrophysicsMathematical physics
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On Radon Transforms on Tori

2014

We show injectivity of the X-ray transform and the $d$-plane Radon transform for distributions on the $n$-torus, lowering the regularity assumption in the recent work by Abouelaz and Rouvi\`ere. We also show solenoidal injectivity of the X-ray transform on the $n$-torus for tensor fields of any order, allowing the tensors to have distribution valued coefficients. These imply new injectivity results for the periodic broken ray transform on cubes of any dimension.

Mathematics - Differential GeometryAstrophysics::High Energy Astrophysical PhenomenaGeneral Mathematicschemistry.chemical_elementRadoninversio-ongelmatTensor fieldray transformsMathematics - Analysis of PDEs46F12 44A12 53A45Dimension (vector space)FOS: MathematicsMathematicsgeometric opticsSolenoidal vector fieldRadon transformApplied MathematicsMathematical analysisOrder (ring theory)TorusFourier analysisDistribution (mathematics)Differential Geometry (math.DG)chemistryAnalysisAnalysis of PDEs (math.AP)
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Tensor tomography: Progress and challenges

2013

We survey recent progress in the problem of recovering a tensor field from its integrals along geodesics. We also propose several open problems.

Mathematics - Differential GeometryGeodesicApplied MathematicsGeneral MathematicsInverse probleminversio-ongelmatIntegral geometryTensor fieldMathematics - Analysis of PDEsDifferential Geometry (math.DG)Tensor (intrinsic definition)FOS: Mathematicstensor tomographyTomographyAnalysis of PDEs (math.AP)MathematicsMathematical physicsintegral geometry
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The Light Ray transform in Stationary and Static Lorentzian geometries

2019

Given a Lorentzian manifold, the light ray transform of a function is its integrals along null geodesics. This paper is concerned with the injectivity of the light ray transform on functions and tensors, up to the natural gauge for the problem. First, we study the injectivity of the light ray transform of a scalar function on a globally hyperbolic stationary Lorentzian manifold and prove injectivity holds if either a convex foliation condition is satisfied on a Cauchy surface on the manifold or the manifold is real analytic and null geodesics do not have cut points. Next, we consider the light ray transform on tensor fields of arbitrary rank in the more restrictive class of static Lorentzia…

Mathematics - Differential GeometryGeodesicinverse problems010102 general mathematicsMathematical analysislight ray transform01 natural sciencesRayFoliationManifoldinversio-ongelmatTensor field010101 applied mathematicsCauchy surfaceMathematics - Analysis of PDEsDifferential geometryDifferential Geometry (math.DG)FOS: Mathematicswave equationGeometry and TopologyMathematics::Differential Geometry0101 mathematicsScalar fieldMathematicsAnalysis of PDEs (math.AP)
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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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The X-Ray Transform for Connections in Negative Curvature

2016

We consider integral geometry inverse problems for unitary connections and skew-Hermitian Higgs fields on manifolds with negative sectional curvature. The results apply to manifolds in any dimension, with or without boundary, and also in the presence of trapped geodesics. In the boundary case, we show injectivity of the attenuated ray transform on tensor fields with values in a Hermitian bundle (i.e. vector valued case). We also show that a connection and Higgs field on a Hermitian bundle are determined up to gauge by the knowledge of the parallel transport between boundary points along all possible geodesics. The main tools are an energy identity, the Pestov identity with a unitary connect…

Mathematics - Differential GeometryPure mathematicsHermitian bundlesGeodesic[MATH.MATH-DS]Mathematics [math]/Dynamical Systems [math.DS]Connection (vector bundle)Boundary (topology)Dynamical Systems (math.DS)X-ray transforms01 natural sciencesinversio-ongelmatHiggs fieldsTensor fieldMathematics - Analysis of PDEsFOS: MathematicsSectional curvatureMathematics - Dynamical Systems0101 mathematicsmath.APMathematical PhysicsPhysicsX-ray transformParallel transport010102 general mathematicsStatistical and Nonlinear Physicsconnections010101 applied mathematicsHiggs fieldmath.DGDifferential Geometry (math.DG)[MATH.MATH-DG]Mathematics [math]/Differential Geometry [math.DG]Mathematics::Differential Geometrymath.DSAnalysis of PDEs (math.AP)[MATH.MATH-SP]Mathematics [math]/Spectral Theory [math.SP]Communications in Mathematical Physics
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Some observations on the regularizing field for gradient damage models

2000

Gradient enhanced material models can potentially preserve well-posedness of incremental boundary value problems also after the onset of strain softening. Gradient dependent constitutive relations are rooted in the assumption that some scalar or tensor field, which appears in the yield function, has to be enriched by adding a term involving its second-order gradient field. For gradient-dependent plasticity this term is universally accepted to be the equivalent plastic strain. For gradient-dependent damage models different choices have been presented in the literature. They all possess the desired regularization of the solution, but they are not identical as regards the structural response. …

Mechanical EngineeringMathematical analysisConstitutive equationComputational MechanicsDamage strain localizationPlasticityTensor fieldRegularization (physics)Solid mechanicsGradient Damage MechanicsVector fieldBoundary value problemSettore ICAR/08 - Scienza Delle CostruzioniGradient methodRegularized softeningMathematics
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