Search results for " Fisica Matematica"

showing 10 items of 384 documents

Demyelination patterns in a mathematical model of multiple sclerosis.

2016

In this paper we derive a reaction-diffusion-chemotaxis model for the dynamics of multiple sclerosis. We focus on the early inflammatory phase of the disease characterized by activated local microglia, with the recruitment of a systemically activated immune response, and by oligodendrocyte apoptosis. The model consists of three equations describing the evolution of macrophages, cytokine and apoptotic oligodendrocytes. The main driving mechanism is the chemotactic motion of macrophages in response to a chemical gradient provided by the cytokines. Our model generalizes the system proposed by Calvez and Khonsari (Math Comput Model 47(7–8):726–742, 2008) and Khonsari and Calvez (PLos ONE 2(1):e…

Multiple Sclerosismedicine.medical_treatmentInflammationApoptosisBiology01 natural sciencesModels BiologicalConcentric ring03 medical and health sciences0302 clinical medicineTuring instabilitymedicineHumansMultiple sclerosi0101 mathematicsSettore MAT/07 - Fisica MatematicaInflammationMicrogliaOligodendrocyte apoptosisPatternMultiple sclerosisTuring instabilityApplied MathematicsChemotaxismedicine.diseaseAgricultural and Biological Sciences (miscellaneous)Magnetic Resonance Imaging010101 applied mathematicsChemotaxis PDE modelCytokinemedicine.anatomical_structureModeling and SimulationImmunologymedicine.symptomNeuroscience030217 neurology & neurosurgeryDemyelinating DiseasesJournal of mathematical biology
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On the modeling of nonlinear interactions in large complex systems

2010

Abstract This work deals with the modeling of large systems of interacting entities in the framework of the mathematical kinetic theory for active particles. The contents are specifically focused on the modeling of nonlinear interactions which is one of the most important issues in the mathematical approach to modeling and simulating complex systems, and which includes a learning–hiding dynamics. Applications are focused on the modeling of complex biological systems and on immune competition.

Non lineariteLiving systems Nonlinearity Functional subsystems Kinetic theory Active particlesApplied MathematicsActive particlesComplex system010103 numerical & computational mathematics01 natural sciencesActive particlesLiving systems010101 applied mathematicsNonlinear systemLiving systemsFunctional subsystems0101 mathematicsKinetic theoryBiological systemComplex systems biologyNonlinearitySettore MAT/07 - Fisica MatematicaAlgorithmMathematicsApplied Mathematics Letters
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A numerical study of the small dispersion limit of the Korteweg-de Vries equation and asymptotic solutions

2012

Abstract We study numerically the small dispersion limit for the Korteweg–de Vries (KdV) equation u t + 6 u u x + ϵ 2 u x x x = 0 for ϵ ≪ 1 and give a quantitative comparison of the numerical solution with various asymptotic formulae for small ϵ in the whole ( x , t ) -plane. The matching of the asymptotic solutions is studied numerically.

Nonlinear Sciences - Exactly Solvable and Integrable SystemsNumerical analysis010102 general mathematicsMathematical analysisMathematics::Analysis of PDEsFOS: Physical sciencesStatistical and Nonlinear PhysicsMathematical Physics (math-ph)Condensed Matter Physics01 natural sciences010101 applied mathematicsMathematics - Analysis of PDEsNonlinear Sciences::Exactly Solvable and Integrable SystemsFOS: MathematicsLimit (mathematics)Exactly Solvable and Integrable Systems (nlin.SI)0101 mathematicsDispersion (water waves)Korteweg–de Vries equationSettore MAT/07 - Fisica MatematicaNonlinear Sciences::Pattern Formation and SolitonsMathematical PhysicsAnalysis of PDEs (math.AP)MathematicsMathematical physicsPhys. D 241 (2012), no. 23-24, 2246–2264
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Asymptotic Analysis of a Slightly Rarefied Gas with Nonlocal Boundary Conditions

2011

In this paper nonlocal boundary conditions for the Navier–Stokes equations are derived, starting from the Boltzmann equation in the limit for the Knudsen number being vanishingly small. In the same spirit of (Lombardo et al. in J. Stat. Phys. 130:69–82, 2008) where a nonlocal Poisson scattering kernel was introduced, a gaussian scattering kernel which models nonlocal interactions between the gas molecules and the wall boundary is proposed. It is proved to satisfy the global mass conservation and a generalized reciprocity relation. The asymptotic expansion of the boundary-value problem for the Boltzmann equation, provides, in the continuum limit, the Navier–Stokes equations associated with a…

Nonlocal boundary conditionGaussianMathematical analysisTurbulence modelingStatistical and Nonlinear PhysicsMixed boundary conditionPoisson distributionBoltzmann equationPhysics::Fluid DynamicsBoltzmann equationFluid dynamic limitsymbols.namesakesymbolsKnudsen numberAsymptotic expansionConservation of massSettore MAT/07 - Fisica MatematicaMathematical PhysicsMathematics
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HEAT FLUX IN SUPERFLUID TRANSITION AND IN TURBULENT HELIUM COUNTERFLOW

Normal fluid profileRadial flow Vortex diffusionTwo-fluid modelHelium 4Ballistic regimeInhomogeneous vortex tangles.lambda TransitionHeat transferQuantized vorticeEffective thermal conductivityTurbulent superfluid helium ( He II)One-fluid modelExtended Irreversible ThermodynamicEntrance regionSettore MAT/07 - Fisica MatematicaLongitudinal flow
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Euler integral as a source of chaos in the three–body problem

2022

In this paper we address, from a purely numerical point of view, the question, raised in [20, 21], and partly considered in [22, 9, 3], whether a certain function, referred to as "Euler Integral", is a quasi-integral along the trajectories of the three-body problem. Differently from our previous investigations, here we focus on the region of the "unperturbed separatrix", which turns to be complicated by a collision singularity. Concretely, we reduce the Hamiltonian to two degrees of freedom and, after fixing some energy level, we discuss in detail the resulting three-dimensional phase space around an elliptic and an hyperbolic periodic orbit. After measuring the strength of variation of the…

Numerical AnalysisApplied MathematicsModeling and SimulationThree-body problemFOS: MathematicsEuler integralSymbolic dynamicsDynamical Systems (math.DS)Mathematics - Dynamical SystemsSettore MAT/07 - Fisica Matematica
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A short note on O*-algebras and quantum dynamics

2009

We review some recent results concerning algebraic dynamics and O*-algebras. We also give a perturbative condition which can be used, in connection with previous results, to define a time evolution via a limiting procedure.

O*-algebras Algebraic methods Algebraic topologySettore MAT/07 - Fisica Matematica
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Painlev\'{e} analysis for a generalized nonlinear Schr\"{o}dinger equation

2008

Painlev\`{e} test Complete integrabilitySettore MAT/07 - Fisica Matematica
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On universality of critical behavior in the focusing nonlinear Schrödinger equation, elliptic umbilic catastrophe and the Tritronquée solution to the…

2008

We argue that the critical behavior near the point of “gradient catastrophe” of the solution to the Cauchy problem for the focusing nonlinear Schrodinger equation \(i\epsilon \varPsi _{t}+\frac{\epsilon^{2}}{2}\varPsi _{xx}+|\varPsi |^{2}\varPsi =0\) , e ≪1, with analytic initial data of the form \(\varPsi (x,0;\epsilon)=A(x)e^{\frac{i}{\epsilon}S(x)}\) is approximately described by a particular solution to the Painleve-I equation.

Painleve equationsApplied Mathematics010102 general mathematicsGeneral EngineeringGradient catastrophe01 natural sciencesUniversality (dynamical systems)Method of undetermined coefficientsNonlinear Schrodinger equation; Gradient catastrophe; Painleve equationssymbols.namesakeModeling and SimulationModelling and Simulation0103 physical sciencessymbolsInitial value problem0101 mathematics010306 general physicsNonlinear Schrodinger equationNonlinear Schrödinger equationSettore MAT/07 - Fisica MatematicaEngineering(all)MathematicsMathematical physics
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Formation of Coherent Structures in Kolmogorov Flow with Stratification and Drag

2014

We study a weakly stratified Kolmogorov flow under the effect of a small linear drag. We perform a linear stability analysis of the basic state. We construct the finite dimensional dynamical system deriving from the truncated Fourier mode approximation. Using the Reynolds number as bifurcation parameter we build the corresponding diagram up to Re=100. We observe the coexistence of three coherent structures.

Partial differential equationApplied MathematicsDiagramMathematical analysisReynolds numberDynamical systemPhysics::Fluid DynamicsLinear stability analysisymbols.namesakeFourier transformBifurcation theoryDragsymbolsBifurcation theoryEquilibriaTruncated Navier-Stokes equationsSettore MAT/07 - Fisica MatematicaBifurcationMathematics
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