Search results for " equations"

showing 10 items of 783 documents

Size dependent carrier thermal escape and transfer in bimodally distributed self assembled InAs/GaAs quantum dots

2012

We have investigated the temperature dependent recombination dynamics in two bimodally distributed InAs self assembled quantum dots samples. A rate equations model has been implemented to investigate the thermally activated carrier escape mechanism which changes from exciton-like to uncorrelated electron and hole pairs as the quantum dot size varies. For the smaller dots, we find a hot exciton thermal escape process. We evaluated the thermal transfer process between quantum dots by the quantum dot density and carrier escape properties of both samples. © 2012 American Institute of Physics.

DYNAMICSMaterials scienceAtmospheric escapeCondensed matter physicsExcitonGeneral Physics and AstronomyElectronRate equationThermal transferEPITAXYCondensed Matter::Mesoscopic Systems and Quantum Hall EffectGallium arsenidechemistry.chemical_compoundCondensed Matter::Materials SciencechemistrySTATESself assembled quantum dots rate equations model carrier escape propertiesQuantum dotQuantum dot laserLUMINESCENCEPHOTOLUMINESCENCE
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Modulational instability and generation of self-induced transparency solitons in resonant optical fibers

2009

International audience; We consider continuous-wave propagation through a fiber doped with two-level resonant atoms, which is described by a system of nonlinear Schrodinger-Maxwell-Bloch (NLS-MB) equations. We identify the modulational instability (MI) conditions required for the generation of ultrashort pulses, in cases of both anomalous and normal GVD (group-velocity dispersion). It is shown that the self-induced transparency (SIT) induces non-conventional MI sidebands. The main result is a prediction of the existence of both bright and dark SIT solitons in the anomalous and normal GVD regimes.

Dark solitonOptical fiberNonlinear opticsElectromagnetic wave propagationWave propagationSelf-induced transparency01 natural sciencesDoped materialslaw.invention010309 opticsOpticslawVelocity dispersion0103 physical sciencesDispersion (optics)Optical solitonsGroup velocityOptical fibers010306 general physicsSelf-phase modulationNonlinear Sciences::Pattern Formation and SolitonsModulation instabilityTwo level atomPhysicsUltrashort pulsebusiness.industryNonlinear opticsSelf-phase modulationNonlinear equationsAtomic and Molecular Physics and Optics[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistryModulational instability[CHIM.THEO] Chemical Sciences/Theoretical and/or physical chemistry[ CHIM.THEO ] Chemical Sciences/Theoretical and/or physical chemistryGroup velocitySchroedinger equationLinear stabilitybusinessUltrashort pulse
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'Dual' Gravity: Using Spatial Econometrics to Control for Multilateral Resistance

2010

We propose a quantity-based `dual' version of the gravity equation that yields an estimating equation with both cross-sectional interdependence and spatially lagged error terms. Such an equation can be concisely estimated using spatial econometric techniques. We illustrate this methodology by applying it to the Canada-U.S. data set used previously, among others, by Anderson and van Wincoop (2003) and Feenstra (2002, 2004). Our key result is to show that controlling directly for spatial interdependence across trade flows, as suggested by theory, significantly reduces border effects because it captures `multilateral resistance'. Using a spatial autoregressive moving average specification, we …

Data setEconomics and EconometricsGravity (chemistry)GeographyResistance (ecology)Control (management)EconometricsSpatial econometricsAutoregressive–moving-average modelEstimating equationsSocial Sciences (miscellaneous)MathematicsDual (category theory)SSRN Electronic Journal
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Etude numérique d'équations aux dérivées partielles non linéaires et dispersives

2011

Numerical analysis becomes a powerful resource in the study of partial differential equations (PDEs), allowing to illustrate existing theorems and find conjectures. By using sophisticated methods, questions which seem inaccessible before, like rapid oscillations or blow-up of solutions can be addressed in an approached way. Rapid oscillations in solutions are observed in dispersive PDEs without dissipation where solutions of the corresponding PDEs without dispersion present shocks. To solve numerically these oscillations, the use of efficient methods without using artificial numerical dissipation is necessary, in particular in the study of PDEs in some dimensions, done in this work. As stud…

Davey-Stewartson systems[ MATH.MATH-GM ] Mathematics [math]/General Mathematics [math.GM]equations dispersivesdispersive shocksexponential time-differencing[MATH.MATH-GM]Mathematics [math]/General Mathematics [math.GM][MATH.MATH-MP]Mathematics [math]/Mathematical Physics [math-ph]spectral methodschocs dispersifsnumerical methodsdispersive equationsNo english keywordssplit stepschemas de decomposition d'operateursmethodes spectrales[MATH.MATH-MP] Mathematics [math]/Mathematical Physics [math-ph]Kadomtsev-Petviashvili equationintegrating factor methodparallel computing[ MATH.MATH-MP ] Mathematics [math]/Mathematical Physics [math-ph]Pas de mot clé en français[MATH.MATH-GM] Mathematics [math]/General Mathematics [math.GM]methodes numeriquesblow upequation de Kadomtsev-PetviashviliIntegrateurs exponentielssystemes de Davey-Stewartsoncalcul parallele
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Maximal ℓ p ‐regularity of multiterm fractional equations with delay

2020

[EN] We provide a characterization for the existence and uniqueness of solutions in the space of vector-valued sequences l(p) (Z, X)for the multiterm fractional delayed model in the form Delta(alpha)u(n) + lambda Delta(beta)u(n) = Lambda u(n) + u(n-tau) + f(n), n is an element of Z, alpha, beta is an element of R+, tau is an element of Z, lambda is an element of R, where X is a Banach space, A is a closed linear operator with domain D(A) defined on X, f is an element of l(p)(Z,X) and Delta(Gamma) denotes the Grunwald-Letkinov fractional derivative of order Gamma > 0. We also give some conditions to ensure the existence of solutions when adding nonlinearities. Finally, we illustrate our resu…

DelayMaximal l(p)-regularityMultiterm fractionalGeneral MathematicsFractional equationsGeneral EngineeringApplied mathematicsGrunwald-Letnikov derivativeMATEMATICA APLICADAGrünwald–Letnikov derivativeMathematicsMathematical Methods in the Applied Sciences
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Positive solutions for a discrete two point nonlinear boundary value problem with p-Laplacian

2017

Abstract In the framework of variational methods, we use a two non-zero critical points theorem to obtain the existence of two positive solutions to Dirichlet boundary value problems for difference equations involving the discrete p -Laplacian operator.

Difference equationDiscrete boundary value problemTwo solution01 natural sciencesElliptic boundary value problemDirichlet distributionCritical point theory; Difference equations; Discrete boundary value problems; p-Laplacian; Positive solutions; Two solutions; Analysis; Applied MathematicsPositive solutionsymbols.namesakePoint (geometry)Boundary value problem0101 mathematicsMathematicsApplied Mathematics010102 general mathematicsMathematical analysisp-LaplacianAnalysiMixed boundary condition010101 applied mathematicssymbolsp-LaplacianCritical point theoryNonlinear boundary value problemLaplace operatorAnalysis
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Indefinite integrals of special functions from hybrid equations

2019

Elementary linear first and second order differential equations can always be constructed for twice differentiable functions by explicitly including the function's derivatives in the definition of ...

Differential equationApplied Mathematics010102 general mathematics010103 numerical & computational mathematicsFunction (mathematics)01 natural sciencesLegendre functionSecond order differential equationssymbols.namesakeSpecial functionssymbolsApplied mathematicsDifferentiable function0101 mathematicsComputer Science::DatabasesAnalysisBessel functionMathematicsIntegral Transforms and Special Functions
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Global Non-monotonicity of Solutions to Nonlinear Second-Order Differential Equations

2018

We study behavior of solutions to two classes of nonlinear second-order differential equations with a damping term. Sufficient conditions for the first derivative of a solution x(t) to change sign at least once in a given interval (in a given infinite sequence of intervals) are provided. These conditions imply global non-monotone behavior of solutions.

Differential equationGeneral Mathematics010102 general mathematicsMonotonic functionInterval (mathematics)01 natural sciencesNonlinear differential equationsTerm (time)010101 applied mathematicsSecond order differential equationsNonlinear systemApplied mathematics0101 mathematicsNonlinear differential equations ; non-monotone behaviour ; second order ; damping term ; reciprocal equationSign (mathematics)MathematicsMediterranean Journal of Mathematics
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An Application of the Fixed Point Theory to the Study of Monotonic Solutions for Systems of Differential Equations

2020

In this paper, we establish some conditions for the existence and uniqueness of the monotonic solutions for nonhomogeneous systems of first-order linear differential equations, by using a result of the fixed points theory for sequentially complete gauge spaces.

Differential equationfixed point theorylcsh:MathematicsGeneral Mathematics010102 general mathematicsMathematical analysisFixed-point theoremMonotonic functionGauge (firearms)Fixed pointlcsh:QA1-939sequentially complete gauge spaces.01 natural sciences010101 applied mathematicsLinear differential equationComputer Science (miscellaneous)systems of differential equationsexistence and uniqueness theoremsUniqueness0101 mathematicsEngineering (miscellaneous)monotonic solutionsMathematicsMathematics
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Matemātika

1994

Differential equationsLoģikaFunkcionālanalīzeAlgebraFunctional analysis:MATHEMATICS [Research Subject Categories]TopoloģijaAproksimāciju teorijaMatemātikaApproximation theoryDiferenciālvienādojumiLogicsTopology
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