Search results for "inversio-ongelmat"

showing 10 items of 76 documents

The Geodesic Ray Transform on Spherically Symmetric Reversible Finsler Manifolds

2023

We show that the geodesic ray transform is injective on scalar functions on spherically symmetric reversible Finsler manifolds where the Finsler norm satisfies a Herglotz condition. We use angular Fourier series to reduce the injectivity problem to the invertibility of generalized Abel transforms and by Taylor expansions of geodesics we show that these Abel transforms are injective. Our result has applications in linearized boundary rigidity problem on Finsler manifolds and especially in linearized elastic travel time tomography.

Mathematics - Differential Geometryinverse problems44A12 53A99 86A22inversio-ongelmatFunctional Analysis (math.FA)Mathematics - Functional Analysisdifferentiaaligeometriageodesic ray transformDifferential Geometry (math.DG)FOS: MathematicsMathematics::Metric GeometryGeometry and TopologyMathematics::Differential GeometryMathematics::Symplectic Geometryintegral geometry
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Pestov identities and X-ray tomography on manifolds of low regularity

2021

We prove that the geodesic X-ray transform is injective on scalar functions and (solenoidally) on one-forms on simple Riemannian manifolds $(M,g)$ with $g \in C^{1,1}$. In addition to a proof, we produce a redefinition of simplicity that is compatible with rough geometry. This $C^{1,1}$-regularity is optimal on the H\"older scale. The bulk of the article is devoted to setting up a calculus of differential and curvature operators on the unit sphere bundle atop this non-smooth structure.

Mathematics - Differential Geometrynon-smooth geometrygeodesic X-ray tomographyinverse problems44A12 53C22 53C65 58J32Pestov identityinversio-ongelmatdifferentiaaligeometriaRiemannin monistotMathematics - Analysis of PDEsDifferential Geometry (math.DG)tomografiaintegraalilaskentaFOS: MathematicsMathematics::Differential Geometryintegral geometryAnalysis of PDEs (math.AP)
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Fixed domain approaches in shape optimization problems with Dirichlet boundary conditions

2009

Fixed domain methods have well-known advantages in the solution of variable domain problems including inverse interface problems. This paper examines two new control approaches to optimal design problems governed by general elliptic boundary value problems with Dirichlet boundary conditions. Numerical experiments are also included peerReviewed

Optimal designkäänteisongelmatFictitious domain methodApplied MathematicsMathematical analysisMixed boundary conditionDomain (mathematical analysis)inversio-ongelmatComputer Science ApplicationsTheoretical Computer Sciencesymbols.namesakeoptimal controlDirichlet boundary conditionDirichlet's principleSignal Processingmuodon optimointishape optimizationsymbolsShape optimizationBoundary value problemMathematical PhysicsMathematics
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The fixed angle scattering problem with a first order perturbation

2021

We study the inverse scattering problem of determining a magnetic field and electric potential from scattering measurements corresponding to finitely many plane waves. The main result shows that the coefficients are uniquely determined by $2n$ measurements up to a natural gauge. We also show that one can recover the full first order term for a related equation having no gauge invariance, and that it is possible to reduce the number of measurements if the coefficients have certain symmetries. This work extends the fixed angle scattering results of Rakesh and M. Salo to Hamiltonians with first order perturbations, and it is based on wave equation methods and Carleman estimates.

PhysicsNuclear and High Energy Physicsinverse scattering problemsScattering010102 general mathematicsMathematical analysisPlane waveInverseFOS: Physical sciencesStatistical and Nonlinear PhysicsMathematical Physics (math-ph)Gauge (firearms)Wave equation01 natural sciencesinversio-ongelmat010101 applied mathematicsMathematics - Analysis of PDEsInverse scattering problemFOS: MathematicsGauge theoryElectric potential0101 mathematicsMathematical PhysicsAnalysis of PDEs (math.AP)
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Unique continuation property and Poincar�� inequality for higher order fractional Laplacians with applications in inverse problems

2020

We prove a unique continuation property for the fractional Laplacian $(-\Delta)^s$ when $s \in (-n/2,\infty)\setminus \mathbb{Z}$. In addition, we study Poincar\'e-type inequalities for the operator $(-\Delta)^s$ when $s\geq 0$. We apply the results to show that one can uniquely recover, up to a gauge, electric and magnetic potentials from the Dirichlet-to-Neumann map associated to the higher order fractional magnetic Schr\"odinger equation. We also study the higher order fractional Schr\"odinger equation with singular electric potential. In both cases, we obtain a Runge approximation property for the equation. Furthermore, we prove a uniqueness result for a partial data problem of the $d$-…

Pure mathematicsControl and Optimizationfractional Schrödinger equationApproximation propertyPoincaré inequalityRadon transform.01 natural sciencesinversio-ongelmatSchrödinger equationsymbols.namesakefractional Poincaré inequalityOperator (computer programming)Mathematics - Analysis of PDEsFOS: MathematicsDiscrete Mathematics and CombinatoricsUniquenesskvanttimekaniikka0101 mathematicsepäyhtälötMathematicsosittaisdifferentiaaliyhtälötPlane (geometry)inverse problemsComputer Science::Information Retrieval010102 general mathematicsOrder (ring theory)Gauge (firearms)Mathematics::Spectral Theoryunique continuationFunctional Analysis (math.FA)010101 applied mathematicsMathematics - Functional AnalysisModeling and Simulationsymbolsfractional LaplacianAnalysis35R30 46F12 44A12Analysis of PDEs (math.AP)
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The Poisson embedding approach to the Calderón problem

2020

We introduce a new approach to the anisotropic Calder\'on problem, based on a map called Poisson embedding that identifies the points of a Riemannian manifold with distributions on its boundary. We give a new uniqueness result for a large class of Calder\'on type inverse problems for quasilinear equations in the real analytic case. The approach also leads to a new proof of the result by Lassas and Uhlmann (2001) solving the Calder\'on problem on real analytic Riemannian manifolds. The proof uses the Poisson embedding to determine the harmonic functions in the manifold up to a harmonic morphism. The method also involves various Runge approximation results for linear elliptic equations.

Pure mathematicsRIEMANNIAN-MANIFOLDSDEVICESGeneral MathematicsBoundary (topology)INVISIBILITYPoisson distribution01 natural sciencesinversio-ongelmatsymbols.namesakeMathematics - Analysis of PDEs0103 physical sciences111 MathematicsREGULARITYUniqueness0101 mathematicsEQUATIONSMathematicsosittaisdifferentiaaliyhtälötCalderón problemCLOAKING010102 general mathematicsRiemannian manifoldInverse problemFULLManifoldPoisson embeddingHarmonic functionsymbolsEmbedding010307 mathematical physics35R30 (Primary) 35J25 53C21(Secondary)INVERSE PROBLEMSMathematische Annalen
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On the broken ray transform

2014

Röntgen-muunnosinverse problemstomografiatomographymatemaattiset mallitinversio-ongelmatX-ray transformmurtosädemuunnosbroken ray transform
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The fixed angle scattering problem and wave equation inverse problems with two measurements

2019

We consider two formally determined inverse problems for the wave equation in more than one space dimension. Motivated by the fixed angle inverse scattering problem, we show that a compactly supported potential is uniquely determined by the far field pattern generated by plane waves coming from exactly two opposite directions. This implies that a reflection symmetric potential is uniquely determined by its fixed angle scattering data. We also prove a Lipschitz stability estimate for an associated problem. Motivated by the point source inverse problem in geophysics, we show that a compactly supported potential is uniquely determined from boundary measurements of the waves generated by exactl…

ScatteringApplied Mathematics010102 general mathematicsMathematical analysisPlane waveBoundary (topology)Inverse problemWave equationLipschitz continuity01 natural sciencesinversio-ongelmatComputer Science ApplicationsTheoretical Computer Science010101 applied mathematicsMathematics - Analysis of PDEs35R30Signal ProcessingInverse scattering problemReflection (physics)FOS: Mathematics0101 mathematicsMathematical PhysicsMathematicsAnalysis of PDEs (math.AP)
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An inverse problem for the fractional Schrödinger equation in a magnetic field

2020

This paper shows global uniqueness in an inverse problem for a fractional magnetic Schrödinger equation (FMSE): an unknown electromagnetic field in a bounded domain is uniquely determined up to a natural gauge by infinitely many measurements of solutions taken in arbitrary open subsets of the exterior. The proof is based on Alessandrini's identity and the Runge approximation property, thus generalizing some previous works on the fractional Laplacian. Moreover, we show with a simple model that the FMSE relates to a long jump random walk with weights. peerReviewed

Schrödinger equationmagneettikentätinversio-ongelmat
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Geometric Inverse Problems

2023

This up-to-date treatment of recent developments in geometric inverse problems introduces graduate students and researchers to an exciting area of research. With an emphasis on the two-dimensional case, topics covered include geodesic X-ray transforms, boundary rigidity, tensor tomography, attenuated X-ray transforms and the Calderón problem. The presentation is self-contained and begins with the Radon transform and radial sound speeds as motivating examples. The required geometric background is developed in detail in the context of simple manifolds with boundary. An in-depth analysis of various geodesic X-ray transforms is carried out together with related uniqueness, stability, reconstruc…

abstract analysismatematiikkamathematicsgeometry and topologygeodesiageometriatopologiainversio-ongelmat
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