Search results for "Equations"

showing 10 items of 955 documents

A fast Fourier transform based direct solver for the Helmholtz problem

2018

This article is devoted to the efficient numerical solution of the Helmholtz equation in a two‐ or three‐dimensional (2D or 3D) rectangular domain with an absorbing boundary condition (ABC). The Helmholtz problem is discretized by standard bilinear and trilinear finite elements on an orthogonal mesh yielding a separable system of linear equations. The main key to high performance is to employ the fast Fourier transform (FFT) within a fast direct solver to solve the large separable systems. The computational complexity of the proposed FFT‐based direct solver is O(N log N) operations. Numerical results for both 2D and 3D problems are presented confirming the efficiency of the method discussed…

finite‐element discretizationHelmholtz equationDiscretizationFast Fourier transform010103 numerical & computational mathematicsSystem of linear equationsabsorbing boundary conditions01 natural sciencessymbols.namesake35J05 42A38 65F05 65N22FOS: MathematicsFourier'n sarjatApplied mathematicsBoundary value problemMathematics - Numerical AnalysisHelmholtz equation0101 mathematicsMathematicsosittaisdifferentiaaliyhtälötAlgebra and Number Theorynumeeriset menetelmätApplied MathematicsNumerical Analysis (math.NA)SolverFinite element method010101 applied mathematicsFourier transformsymbolsFourier transformnumeerinen analyysifast direct solver
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The FLO Diffusive 1D-2D Model for Simulation of River Flooding

2016

An integrated 1D-2D model for the solution of the diffusive approximation of the shallow water equations, named FLO, is proposed in the present paper. Governing equations are solved using the MArching in Space and Time (MAST) approach. The 2D floodplain domain is discretized using a triangular mesh, and standard river sections are used for modeling 1D flow inside the section width occurring with low or standard discharges. 1D elements, inside the 1D domain, are quadrilaterals bounded by the trace of two consecutive sections and by the sides connecting their extreme points. The water level is assumed to vary linearly inside each quadrilateral along the flow direction, but to remain constant …

floodplainlcsh:Hydraulic engineering010504 meteorology & atmospheric sciencesDiscretization0208 environmental biotechnologyGeography Planning and DevelopmentGeometry02 engineering and technologyAquatic ScienceClassification of discontinuities01 natural sciencesBiochemistry1D-2D couplingSettore ICAR/01 - Idraulicalcsh:Water supply for domestic and industrial purposeslcsh:TC1-978Triangle meshBoundary value problemExtreme pointShallow water equations0105 earth and related environmental sciencesWater Science and TechnologyPhysicsHydrologylcsh:TD201-500Quadrilateralshallow water equationsNumerical analysisnumerical method020801 environmental engineeringmain channelfloodplains1D-2D coupling; floodplains; main channel; numerical method; shallow water equationsWater; Volume 8; Issue 5; Pages: 200
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Spherical harmonic expansion of fundamental solutions and their derivatives for homogenous elliptic operators

2017

In this work, a unified scheme for computing the fundamental solutions of a three-dimensional homogeneous elliptic partial differential operator is presented. The scheme is based on the Rayleigh expansion and on the Fourier representation of a homogeneous function. The scheme has the advantage of expressing the fundamental solutions and their derivatives up to the desired order without any term-by-term differentiation. Moreover, the coefficients of the series need to be computed only once, thus making the presented scheme attractive for numerical implementation. The scheme is employed to compute the fundamental solution of isotropic elasticity showing that the spherical harmonics expansions…

fundamental solutions spherical harmonics elliptic operators integral equations boundary element methodSettore ING-IND/04 - Costruzioni E Strutture Aerospaziali
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Mathematical Models and their Solutions for Domains of Compex Form

2014

Promocijas darbā tiek apskatīti dažādi oriģināli modeļi un to risinājumi sarežģītas formas apgabaliem. Intensīvās tērauda rūdīšanas procesi sistēmām ar ribām tiek aprakstīti ar 3D hiperbolisko, kā arī ar klasisko siltuma vadīšanas vienādojumu. Precīzā atrisinājuma iegūšanai izmantota Grīna funkciju metode un tās vispārinājums. Modernajos datoros sastopamajām sistēmām ar dubulsieniņu un dubultribu dota stacionārā un nestacionārā siltumvadīšanas problēma 2D gadījumā. Tās risinājums tiek iegūts ar konservatīvās viduvēšanas metodi, galīgo diferenču metodi un tās modifikāciju robežnosacījumiem. Piedāvāts jauns matemātiskais modelis vītola flautai, problēmas formulējumā izmantojot 1D lineāru viļņ…

galīgo diferenču metodeL-shape samplewillow fluteMathematical modellingMatemātiskā modelēšanakonservatīvā viduvēšanavītola flautaheat conduction equationssistēmas ar dubultsieniņu un dubultribuL-veida apgabalsGreen’s functionmethod of separation of variablesdouble wall with double finssiltuma vadīšanas vienādojumiGrīna funkcijamainīgo atdalīšanas metodeMatemātikawave equationviļņu vienādojumsconservative averagingMathematicsfinite difference method
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Balance equations-based properties of the Rabi Hamiltonian

2014

A stationary physical system satisfies peculiar balance conditions involving mean values of appropriate observables. In this paper we show how to deduce such quantitative links, named balance equations, demonstrating as well their usefulness in bringing to light physical properties of the system without solving the Schrodinger equation. The knowledge of such properties in the case of Rabi Hamiltonian is exploit to provide arguments to make easier the variational engineering of the ground state of this model.

ground state variational approach Wigner function Rabi model balance equationsQuantum PhysicsFOS: Physical sciencesMathematical Physics (math-ph)Quantum Physics (quant-ph)Mathematical Physics
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Approach to equilibrium of a quarkonium in a quark-gluon plasma

2018

We derive equations of motion for the reduced density matrix of a heavy quarkonium in contact with a quark-gluon plasma in thermal equilibrium. These equations allow in particular a proper treatment of the regime when the temperature of the plasma is comparable to the binding energy of the quarkonium. These equations are used to study how the quarkonium approaches equilibrium with the plasma, and we discuss the corresponding entropy increase, or free energy decrease, depending on the temperature regime. The effect of collisions can be accounted for by the generalization of the imaginary potential introduced in previous studies, and from which collision rates are derived. An important outcom…

heavy ion: scatteringNuclear Theoryquark-gluon plasmaplasma: temperature[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]High Energy Physics::LatticeBinding energyFOS: Physical sciencesdensity matrix: reducedhiukkasfysiikka01 natural sciencesNuclear Theory (nucl-th)heavy quark: productionHigh Energy Physics - Phenomenology (hep-ph)quarkonium: heavy0103 physical sciencesparticle physicsStrong Interactions010306 general physicsNuclear Experimentquark gluon: plasmaPhysicsThermal equilibriumquarkonium: binding energyta114010308 nuclear & particles physicsHigh Energy Physics::PhenomenologyEquations of motionPlasmafield equationsQuarkoniumCollisionpotential: complexHigh Energy Physics - PhenomenologyQuantum electrodynamicsheavy quark: propagation[PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph]Quark–gluon plasmaProper treatment
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Homogenization of equations describing materials interacting with clouds of particles

2012

We shall describe the derivation of homogenized equations (in an asymp- totics of mean-field type) for systems consisting of a cloud of particles dispersed in a material enclosed in a bounded domain. We shall consider in particular the homoge- nization of the Stokes problem leading to the Brinkman force and the homogenization of a model describing the heat exchange between the material and the dispersed phase leading to a (time-dependent) two-temperature equation. In both cases, the homogenized equations can be rigorously derived using similar form for the correctors.

homogenized equations
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On modified α-ϕ-fuzzy contractive mappings and an application to integral equations

2016

Abstract We introduce the notion of a modified α-ϕ-fuzzy contractive mapping and prove some results in fuzzy metric spaces for such kind of mappings. The theorems presented provide a generalization of some interesting results in the literature. Two examples and an application to integral equations are given to illustrate the usability of our theory.

integral equationsGeneralization02 engineering and technologyFixed point01 natural sciencesFuzzy logicSettore MAT/05 - Analisi Matematica0202 electrical engineering electronic engineering information engineeringmodified α-ϕ-fuzzy contractive mappingDiscrete Mathematics and Combinatorics0101 mathematicsα-admissible mapping with respect to ηMathematicsDiscrete mathematicsbusiness.industryApplied Mathematicslcsh:MathematicsUsabilitylcsh:QA1-939Integral equationFuzzy metric space010101 applied mathematicsAlgebraintegral equationfixed point020201 artificial intelligence & image processing$alpha$-admissible mapping with respect to $eta$ fixed point modified $alpha$-$phi$-fuzzy contractive mapping integral equationsbusinessAnalysisJournal of Inequalities and Applications
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On the Fast and Rigorous Analysis of Compensated Waveguide Junctions Using Off-Centered Partial-Height Metallic Posts

2007

In this paper, we present an efficient and rigorous method, based on the 3-D boundary integral-resonant-mode expansion technique, for the analysis of multiport rectangular waveguide junctions compensated with partial-height cylindrical metallic posts. The electrical performance of a great variety of commonly used wideband microwave circuits has been improved drastically thanks to the introduction of a new design parameter, i.e., the relative position of the metallic post in the structure. To the authors' knowledge, this parameter has not been taken into account in previous studies concerning compensated junctions using partial-height metallic posts. The developed tool has been successfully …

integral equationsmethod of momentsRadiationbusiness.industryAcousticsNumerical analysiswaveguide junctionsMethod of moments (statistics)Condensed Matter PhysicsWaveguide (optics)Finite element methodcompensationOpticsPower dividers and directional couplerswaveguide componentsElectrical and Electronic EngineeringWidebandbusinessMicrowaveElectronic circuitMathematicsIEEE Transactions on Microwave Theory and Techniques
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Multi-parameter analysis of the obstacle scattering problem

2022

Abstract We consider the acoustic field scattered by a bounded impenetrable obstacle and we study its dependence upon a certain set of parameters. As usual, the problem is modeled by an exterior Dirichlet problem for the Helmholtz equation Δu + k 2 u = 0. We show that the solution u and its far field pattern u ∞ depend real analytically on the shape of the obstacle, the wave number k, and the Dirichlet datum. We also prove a similar result for the corresponding Dirichlet-to-Neumann map.

integral equationsshape sensitivity analysisassociated exterior Dirichlet problemDirichlet-to-Neumann operatorApplied MathematicsHelmholtz equation; acoustic scattering; associated exterior Dirichlet problem; Dirichlet-to-Neumann operator; shape sensitivity analysis; perturbed domain; integral equationsacoustic scatteringComputer Science ApplicationsTheoretical Computer Scienceperturbed domainMathematics - Analysis of PDEsSettore MAT/05 - Analisi MatematicaSignal ProcessingFOS: Mathematicsacoustic scattering; associated exterior Dirichlet problem; Dirichlet-to-Neumann operator; Helmholtz equation; integral equations; perturbed domain; shape sensitivity analysisHelmholtz equation35J25 35J05 35P25 31B10 45A05Mathematical PhysicsAnalysis of PDEs (math.AP)
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