Search results for "Laplace"

showing 10 items of 227 documents

Efficient and accurate computation of Green's function for the Poisson equation in rectangular waveguides

2009

[1] In this paper, a new algorithm for the fast and precise computation of Green's function for the 2-D Poisson equation in rectangular waveguides is presented. For this purpose, Green's function is written in terms of Jacobian elliptic functions involving complex arguments. A new algorithm for the fast and accurate evaluation of such Green's function is detailed. The main benefit of this algorithm is successfully shown within the frame of the Boundary Integral Resonant Mode Expansion method, where a substantial reduction of the computational effort related to the evaluation of the cited Green's function is obtained.

Laplace's equationMathematical analysisGreen's identitiesCondensed Matter PhysicsIntegral equationGreen's function for the three-variable Laplace equationsymbols.namesakeScreened Poisson equationGreen's functionsymbolsGeneral Earth and Planetary SciencesElectrical and Electronic EngineeringPoisson's equationGeneralLiterature_REFERENCE(e.g.dictionariesencyclopediasglossaries)Rectangular functionMathematicsRadio Science
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A theorem of Radò’s type for the solutions of a quasi-linear equation

2004

Laplace's equationPartial differential equationLinear differential equationDifferential equationGeneral MathematicsMathematical analysisFirst-order partial differential equationRiccati equationHeat equationUniversal differential equationMathematicsMathematical Research Letters
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On the generalization of the Boltzmann equation

1974

Starting from the Liouville equation and making use of projection operator techniques we obtain a compact equation for the rate of change of then-particle momentum distribution function to any order in the density. This equation is exact in the thermodynamic limit. The terms up to second order in the density are studied and expressions are given for the errors committed when one makes the usual hypothesis to derive generalized Boltzmann equations. Finally the Choh-Uhlenbeck operator is obtained under additional assumptions.

Laplace's equationPhysicsPartial differential equationZwanzig projection operatorIntegro-differential equationFunctional equationApplied mathematicsFokker–Planck equationBoltzmann equationBhatnagar–Gross–Krook operatorIl Nuovo Cimento B Series 11
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Zero Viscosity Limit for Analytic Solutions of the Navier-Stokes Equation on a Half-Space.¶ II. Construction of the Navier-Stokes Solution

1998

This is the second of two papers on the zero-viscosity limit for the incompressible Navier-Stokes equations in a half-space in either 2D or 3D. Under the assumption of analytic initial data, we construct solutions of Navier-Stokes for a short time which is independent of the viscosity. The Navier-Stokes solution is constructed through a composite asymptotic expansion involving the solutions of the Euler and Prandtl equations, which were constructed in the first paper, plus an error term. This shows that the Navier-Stokes solution goes to an Euler solution outside a boundary layer and to a solution of the Prandtl equations within the boundary layer. The error term is written as a sum of firs…

Laplace's equationPrandtl numberMathematical analysisMathematics::Analysis of PDEsCharacteristic equationStatistical and Nonlinear PhysicsStokes flowPhysics::Fluid Dynamicssymbols.namesakeBoundary layerNonlinear systemStokes' lawEuler's formulasymbolsMathematical PhysicsMathematicsCommunications in Mathematical Physics
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The Method of Fundamental Solutions in Solving Coupled Boundary Value Problems for M/EEG

2015

The estimation of neuronal activity in the human brain from electroencephalography (EEG) and magnetoencephalography (MEG) signals is a typical inverse problem whose solution pro- cess requires an accurate and fast forward solver. In this paper the method of fundamental solutions is, for the first time, proposed as a meshfree, boundary-type, and easy-to-implement alternative to the boundary element method (BEM) for solving the M/EEG forward problem. The solution of the forward problem is obtained by numerically solving a set of coupled boundary value problems for the three-dimensional Laplace equation. Numerical accuracy, convergence, and computational load are investigated. The proposed met…

Laplace's equationQuantitative Biology::Neurons and Cognitionmedicine.diagnostic_testApplied MathematicsPhysics::Medical PhysicsMathematical analysisMagnetoencephalographyInverse problemElectroencephalographySettore MAT/08 - Analisi NumericaSettore ING-IND/31 - ElettrotecnicaComputational MathematicsConvergence (routing)medicineMethod of fundamental solutionsBoundary value problemkernel-based methods method of fundamental solutions EEG MEGBoundary element methodMathematicsSIAM Journal on Scientific Computing
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A remark on infinite initial values for quasilinear parabolic equations

2020

Abstract We study the possibility of prescribing infinite initial values for solutions of the Evolutionary p -Laplace Equation in the fast diffusion case p > 2 . This expository note has been extracted from our previous work. When infinite values are prescribed on the whole initial surface, such solutions can exist only if the domain is a space–time cylinder.

Laplace's equationSurface (mathematics)Work (thermodynamics)Applied Mathematics010102 general mathematicsMathematical analysis01 natural sciencesParabolic partial differential equationDomain (mathematical analysis)35J92 35J62010101 applied mathematicsMathematics - Analysis of PDEsFOS: MathematicsCylinder0101 mathematicsDiffusion (business)AnalysisMathematicsAnalysis of PDEs (math.AP)
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Radial growth of solutions to the poisson equation

2001

We establish a radial growth estimate of the type of the iterated law of the logarithm for solutions to the Poisson equation in the unit ball.

Laplace's equationUnit spheresymbols.namesakeUniqueness theorem for Poisson's equationLogarithmIterated functionDiscrete Poisson equationMathematical analysissymbolsLaw of the iterated logarithmGeneral MedicinePoisson's equationMathematicsComplex Variables, Theory and Application: An International Journal
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Compact embeddings and indefinite semilinear elliptic problems

2002

Our purpose is to find positive solutions $u \in D^{1,2}(\rz^N)$ of the semilinear elliptic problem $-\laplace u = h(x) u^{p-1}$ for $2<p$. The function $h$ may have an indefinite sign. Key ingredients are a $h$-dependent concentration-compactness Lemma and a characterization of compact embeddings of $D^{1,2}(\rz^N)$ into weighted Lebesgue spaces.

Lemma (mathematics)Pure mathematicsLaplace transformFunction spaceApplied MathematicsWeak solutionMathematical analysisFunction (mathematics)Functional Analysis (math.FA)Mathematics - Functional AnalysisElliptic curveMathematics - Analysis of PDEsFOS: Mathematics35J65 35D05Lp spaceAnalysisAnalysis of PDEs (math.AP)Sign (mathematics)Mathematics
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Local uniqueness of the solutions for a singularly perturbed nonlinear nonautonomous transmission problem

2020

Abstract We consider the Laplace equation in a domain of R n , n ≥ 3 , with a small inclusion of size ϵ . On the boundary of the inclusion we define a nonlinear nonautonomous transmission condition. For ϵ small enough one can prove that the problem has solutions. In this paper, we study the local uniqueness of such solutions.

Local uniqueness of the solutionsLaplace's equation020502 materialsApplied MathematicsNonlinear nonautonomous transmission problem010102 general mathematicsMathematical analysisA domainBoundary (topology)02 engineering and technology01 natural sciencesNonlinear systemMathematics - Analysis of PDEs35J25 31B10 35J65 35B25 35A020205 materials engineeringTransmission (telecommunications)Settore MAT/05 - Analisi MatematicaLocal uniqueness of the solutions; Nonlinear nonautonomous transmission problem; Singularly perturbed perforated domainFOS: MathematicsUniqueness0101 mathematicsSingularly perturbed perforated domainAnalysisMathematicsAnalysis of PDEs (math.AP)
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Numerical modelling of the galvanic coupling in aluminium alloys: A discussion on the application of local probe techniques

2010

Abstract A discussion is proposed on the determination of the input values and the experimental validation of finite element modelling of the galvanic coupling in aluminium alloys by local probe techniques such as the Scanning Vibrating Electrode Technique (SVET) and the microcapillary electrochemical cell (microcell). Polarization curves obtained by the microcell were introduced as input conditions in the model based on Laplace or Nernst–Planck equation. SVET measurements were performed to determine the coupling current distribution on an Al/Al4%Cu bimetallic system. Agreement was found between simulated and experimental current distributions depending on the input conditions and the solve…

Materials scienceLaplace transformGeneral Chemical EngineeringMetallurgychemistry.chemical_elementGeneral ChemistryMechanicsFinite element methodCorrosionElectrochemical cellGalvanic corrosionchemistryAluminiumMicrocellGeneral Materials SciencePolarization (electrochemistry)Corrosion Science
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