Search results for " Differential equations"

showing 10 items of 146 documents

Spectral theory of a Neumann-Poincare-type operator and analysis of cloaking due to anomalous localized resonance

2011

The aim of this paper is to give a mathematical justification of cloaking due to anomalous localized resonance (CALR). We consider the dielectric problem with a source term in a structure with a layer of plasmonic material. Using layer potentials and symmetrization techniques, we give a necessary and sufficient condition on the fixed source term for electromagnetic power dissipation to blow up as the loss parameter of the plasmonic material goes to zero. This condition is written in terms of the Newtonian potential of the source term. In the case of concentric disks, we make the condition even more explicit. Using the condition, we are able to show that for any source supported outside a cr…

PermittivitySpectral theoryShell (structure)Physics::OpticsFOS: Physical sciencesCloakingDielectricBlow up01 natural sciencesResonance (particle physics)Mathematics (miscellaneous)Mathematics - Analysis of PDEsSettore MAT/05 - Analisi MatematicaQuantum mechanicsFOS: Mathematics0101 mathematicsPhysicsCondensed Matter - Materials ScienceMechanical EngineeringOperator (physics)010102 general mathematicsIsotropyMaterials Science (cond-mat.mtrl-sci)Partial Differential EquationsNeumann–Poincaré operator010101 applied mathematicsAnalysisAnalysis of PDEs (math.AP)Optics (physics.optics)Physics - Optics
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Eine Bemerkung zur Frage der Verwendung Lagrangescher Koordinaten in der Physik nichtlinearer Schwingungen

1958

For the Cartesian coordinates of the elements of a vibrating string, which are introduced as functions of time and a parameter (similar to the Lagrangean method in hydrodynamics), a general, non-linear system of differential equations is offered. The behaviour of the freely vibrating string corresponding to this system agrees, approximately, with the behaviour of a string put in motion in a certain way, which string, if moving freely, would act according to the linear differential equation of the elementary theory.

PharmacologyPhysicsDifferential equationMotion (geometry)Cell BiologyVibrating stringString (physics)law.inventionHigh Energy Physics::TheoryCellular and Molecular NeuroscienceClassical mechanicsSystem of differential equationsLinear differential equationlawMolecular MedicineElementary theoryCartesian coordinate systemMolecular BiologyExperientia
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Nonlinear Analysis of Phase-locked Loop-Based Circuits

2013

Main problems of simulation and mathematical modeling of high-frequency signals for analog Costas loop and for analog phase-locked loop (PLL) are considered. Two approachers which allow to solve these problems are considered. In the first approach, nonlinear models of classical PLL and classical Costas loop are considered. In the second approach, engineering solutions for this problems are described. Nonlinear differential equations are derived for both approaches.

Phase-locked loopLoop (topology)Nonlinear systemControl theoryComputer scienceCostas loopNonlinear differential equationsElectronic circuit
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An operator-like description of love affairs

2010

We adopt the so--called \emph{occupation number representation}, originally used in quantum mechanics and recently considered in the description of stock markets, in the analysis of the dynamics of love relations. We start with a simple model, involving two actors (Alice and Bob): in the linear case we obtain periodic dynamics, whereas in the nonlinear regime either periodic or quasiperiodic solutions are found. Then we extend the model to a love triangle involving Alice, Bob and a third actress, Carla. Interesting features appear, and in particular we find analytical conditions for the linear model of love triangle to have periodic or quasiperiodic solutions. Numerical solutions are exhibi…

Physics - Physics and SocietyPure mathematicsLove affairDynamical systems theoryApplied MathematicsBosonic operators; Heisenberg-like dynamics; Dynamical systems; Numerical integration of ordinary differential equationsLinear modelFOS: Physical sciencesPhysics and Society (physics.soc-ph)Canonical commutation relationNonlinear systemTheoretical physicsNumber representationAlice and BobSettore MAT/07 - Fisica MatematicaMathematics
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Numerical Solution of Fuzzy Differential Equations with Z-numbers using Fuzzy Sumudu Transforms

2018

The uncertain nonlinear systems can be modeled with fuzzy differential equations (FDEs) and the solutions of these equations are applied to analyze many engineering problems. However, it is very difficult to obtain solutions of FDEs. In this paper, the solutions of FDEs are approximated by utilizing the fuzzy Sumudu transform (FST) method. Here, the uncertainties are in the sense of Z-numbers. Important theorems are laid down to illustrate the properties of FST. The theoretical analysis and simulation results show that this new technique is effective to estimate the solutions of FDEs.

Physics and Astronomy (miscellaneous)lcsh:TFuzzy differential equations02 engineering and technology01 natural sciencesFuzzy logiclcsh:Technology010104 statistics & probabilityNonlinear systemManagement of Technology and InnovationZ number0202 electrical engineering electronic engineering information engineeringApplied mathematics020201 artificial intelligence & image processinglcsh:QSumudu transform0101 mathematicslcsh:ScienceEngineering (miscellaneous)MathematicsAdvances in Science, Technology and Engineering Systems
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Dynamical Ising-like model for the two-step spin-crossover systems

2003

In order to reproduce the two-step relaxation observed experimentally in spin-crossover systems, we investigate analytically the static and the dynamic properties of a two-sublattice Ising-like Hamiltonian. The formalism is based on a stochastic master equation approach. It is solved in the mean-field approximation, and yields two coupled differential equations that correspond to the HS fractions of the sublattices A and B. Virginie.Niel@uv.es ; Jose.A.Real@uv.es

PhysicsDifferential equationsIsing model ; Magnetic transitions ; Magnetic relaxation ; Master equation ; Stochastic systems ; Differential equations ; Spin HamiltoniansMagnetic transitionsSpin HamiltoniansStochastic systemsDifferential equationTwo stepUNESCO::FÍSICAGeneral Physics and AstronomyCoupled differential equationssymbols.namesakeFormalism (philosophy of mathematics)Spin crossover:FÍSICA [UNESCO]Master equationIsing modelsymbolsIsing modelStatistical physicsMaster equationHamiltonian (quantum mechanics)Magnetic relaxation
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STOCHASTIC DYNAMICS OF TWO PICOPHYTOPLANKTON POPULATIONS IN A REAL MARINE ECOSYSTEM

2013

A stochastic reaction-diffusion-taxis model is analyzed to get the stationary distribution along water column of two species of picophytoplankton, that is picoeukaryotes and Prochlorococcus. The model is valid for weakly mixed waters, typical of the Mediterranean Sea. External random fluctuations are considered by adding a multiplicative Gaussian noise to the dynamical equation of the nutrient concentration. The statistical tests show that shape and magnitude of the theoretical concentration profile exhibit a good agreement with the experimental findings. Finally, we study the effects of seasonal variations on picophytoplankton groups, including an oscillating term in the auxiliary equation…

PhysicsGeneral Physics and AstronomySpatial ecology; Marine ecosystems; Phytoplankton dynamics; Deep chlorophyll maximum; Random processes; Stochastic differential equationsRandom processeSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)OceanographyStochastic dynamicsMarine ecosystemStochastic differential equationsSpatial ecologyDeep chlorophyll maximumMarine ecosystemPhytoplankton dynamic
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The $\varepsilon$-form of the differential equations for Feynman integrals in the elliptic case

2018

Feynman integrals are easily solved if their system of differential equations is in $\varepsilon$-form. In this letter we show by the explicit example of the kite integral family that an $\varepsilon$-form can even be achieved, if the Feynman integrals do not evaluate to multiple polylogarithms. The $\varepsilon$-form is obtained by a (non-algebraic) change of basis for the master integrals.

PhysicsHigh Energy Physics - TheoryNuclear and High Energy Physics010308 nuclear & particles physicsFeynman integralDifferential equationElliptic caseFOS: Physical sciences01 natural scienceslcsh:QC1-999High Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)System of differential equationsHigh Energy Physics - Theory (hep-th)0103 physical sciencesComputingMethodologies_SYMBOLICANDALGEBRAICMANIPULATION010306 general physicsChange of basislcsh:PhysicsMathematical physics
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Indicators of Errors for Approximate Solutions of Differential Equations

2014

Error indicators play an important role in mesh-adaptive numerical algorithms, which currently dominate in mathematical and numerical modeling of various models in physics, chemistry, biology, economics, and other sciences. Their goal is to present a comparative measure of errors related to different parts of the computational domain, which could suggest a reasonable way of improving the finite dimensional space used to compute the approximate solution. An “ideal” error indicator must possess several properties: efficiency, computability, and universality. In other words, it must correctly reproduce the distribution of errors, be indeed computable, and be applicable to a wide set of approxi…

PhysicsMathematical optimizationDifferential equationComputabilityApproximate solutionUniversal differential equationDifferential algebraic equationType I and type II errorsNumerical partial differential equationsUniversality (dynamical systems)
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Stochastic Analysis of a Nonlocal Fractional Viscoelastic Bar Forced by Gaussian White Noise

2017

Recently, a displacement-based nonlocal bar model has been developed. The model is based on the assumption that nonlocal forces can be modeled as viscoelastic (VE) long-range interactions mutually exerted by nonadjacent bar segments due to their relative motion; the classical local stress resultants are also present in the model. A finite element (FE) formulation with closed-form expressions of the elastic and viscoelastic matrices has also been obtained. Specifically, Caputo's fractional derivative has been used in order to model viscoelastic long-range interaction. The static and quasi-static response has been already investigated. This work investigates the stochastic response of the non…

PhysicsNon local bar fractional viscoelasticity stochastic analysisDifferential equationStochastic processBar (music)Mechanical EngineeringMathematical analysisEquations of motion02 engineering and technologyWhite noise021001 nanoscience & nanotechnologyViscoelasticityStochastic partial differential equation020303 mechanical engineering & transportsClassical mechanics0203 mechanical engineeringSettore ICAR/08 - Scienza Delle Costruzioni0210 nano-technologySafety Risk Reliability and QualitySafety ResearchNumerical partial differential equationsASCE-ASME J Risk and Uncert in Engrg Sys Part B Mech Engrg
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