Search results for "Statistical physics"

showing 10 items of 1402 documents

Population dynamics based on ladder bosonic operators

2021

Abstract We adopt an operatorial method, based on truncated bosons, to describe the dynamics of populations in a closed region with a non trivial topology. The main operator that includes the various mechanisms and interactions between the populations is the Hamiltonian, constructed with the density and transport operators. The whole evolution is derived from the Schrodinger equation, and the densities of the populations are retrieved from the normalized expected values of the density operators. We show that this approach is suitable for applications in very large domain, solving the computational issues that typically occur when using an Hamiltonian based on fermionic ladder operators.

Physicseducation.field_of_studyPopulation dynamicsApplied MathematicsPopulation02 engineering and technologyExpected value01 natural sciencesSchrödinger equationsymbols.namesake020303 mechanical engineering & transportsOperator (computer programming)Ladder operator0203 mechanical engineeringTrivial topologySchrödinger dynamicsModeling and Simulation0103 physical sciencessymbolsStatistical physicsOperatorial modelseducationHamiltonian (quantum mechanics)010301 acousticsBosonApplied Mathematical Modelling
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Transient behavior of a population dynamical model

2005

The transient behavior of an ecosystem with N random interacting species in the presence of a multiplicative noise is analyzed. The multiplicative noise mimics the interaction with the environment. We investigate different asymptotic dynamical regimes and the role of the external noise on the probability distribution of the local field.

Physicseducation.field_of_studySettore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciPhysics and Astronomy (miscellaneous)Statistical Mechanics (cond-mat.stat-mech)PopulationMultiplicative noisePopulations and Evolution (q-bio.PE)FOS: Physical sciencesDisordered Systems and Neural Networks (cond-mat.dis-nn)Condensed Matter - Disordered Systems and Neural NetworksExternal noisePopulation dynamicMultiplicative noiseFOS: Biological sciencesProbability distributionInteracting speciesTransient (oscillation)Statistical physicsQuantitative Biology - Populations and EvolutioneducationLocal fieldPopulation dynamics; Multiplicative noise; Interacting speciesCondensed Matter - Statistical Mechanics
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The bistable potential: An archetype for classical and quantum systems

2012

In this work we analyze the transient dynamics of three different classical and quantum systems. First, we consider a classical Brownian particle moving in an asymmetric bistable potential, subject to a multiplicative and additive noise source. We investigate the role of these two noise sources on the life time of the metastable state. A nonmonotonic behavior of the lifetime as a function of both additive and multiplicative noise intensities is found, revealing the phenomenon of noise enhanced stability. Afterward, by using a LotkaVolterra model, the dynamics of two competing species in the presence of Lévy noise sources is analyzed. Quasiperiodic oscillations and stochastic resonance pheno…

Physicsmultiplicative noiseSettore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciBistabilityThermal reservoirMetastability and bistabilityStochastic resonanceTime evolutionStatistical and Nonlinear Physicsopen quantum systemsCondensed Matter PhysicsNoise (electronics)Multiplicative noisepopulation dynamicnoise enhanced stabilityQuantum mechanicsQuasiperiodic functionStatistical physicsstochastic resonanceQuantumMetastability and bistability; multiplicative noise; noise enhanced stability; stochastic resonance; population dynamics; open quantum systems
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Nuclear density functional theory with a semi-contact 3-body interaction

2015

International audience; Theories combining nuclear density functional approach (DFT) and effects beyond the independent particle/quasi-particle limit have attracted much attention recently. In particular, such theories, generically referred as “beyond mean-field” (BMF) seem unavoidable to account for both single-particle effects and complex quantum internal phenomena in nuclear finite many-body nuclear systems. It has been realized recently that BMF theories might lead to specific difficulties when applied within the nuclear DFT context. An example is the appearance of divergences in configuration mixing approaches. A short summary of the difficulties is given here. One source of problem is…

Physicsnuclear density functional approachta114010308 nuclear & particles physicsPhysicsQC1-999Functional approachContext (language use)[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]Nuclear matterDFT01 natural sciences0103 physical sciencesStatistical physicsLimit (mathematics)010306 general physicsQuantumMixing (physics)Nuclear densityEnergy functionalEPJ Web of Conferences
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Fractal dimension of superfluid turbulence : A random-walk toy model

2021

This paper deals with the fractal dimension of a superfluid vortex tangle. It extends a previous model [J. Phys. A: Math. Theor. {\bf 43}, 205501 (2010)] (which was proposed for very low temperature), and it proposes an alternative random walk toy model, which is valid also for finite temperature. This random walk model combines a recent Nemirovskii's proposal, and a simple modelization of a self-similar structure of vortex loops (mimicking the geometry of the loops of several sizes which compose the tangle). The fractal dimension of the vortex tangle is then related to the exponents describing how the vortex energy per unit length changes with the length scales, for which we take recent pr…

Physicsquantum vorticeToy modelTurbulenceApplied MathematicsRandom walkFractal dimensionSuperfluid turbulenceIndustrial and Manufacturing Engineeringsuperfluid turbulenceVortexTangleSuperfluidityrandom walkClassical mechanicsCondensed Matter::SuperconductivityBibliographyStatistical physicsQuantum vorticesRandom walksFractal dimensionSettore MAT/07 - Fisica Matematicafractal dimension.
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Dynamic Phase Diagram of the REM

2019

International audience; By studying the two-time overlap correlation function, we give a comprehensive analysis of the phase diagram of the Random Hopping Dynamics of the Random Energy Model (REM) on time-scales that are exponential in the volume. These results are derived from the convergence properties of the clock process associated to the dynamics and fine properties of the simple random walk in the $n$-dimensional discrete cube.

Physicsrandom environmentsspin glassesRandom energy model010102 general mathematicsagingrandom dynamicsSimple random sample01 natural sciencesLévy processclock processExponential function[MATH.MATH-PR]Mathematics [math]/Probability [math.PR]010104 statistics & probabilityCorrelation functionLévy processesConvergence (routing)Statistical physics0101 mathematicsCube[MATH]Mathematics [math]Phase diagram
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Monitoring noise-resonant effects in cancer growth influenced by external fluctuations and periodic treatment

2007

In the paper we investigate a mathematical model describing the growth of tumor in the presence of immune response of a host organism. The dynamics of tumor and immune cells is based on the generic Michaelis-Menten kinetics depicting interaction and competition between the tumor and the immune system. The appropriate phenomenological equation modeling cell-mediated immune surveillance against cancer is of the predator-prey form and exhibits bistability within a given choice of the immune response-related parameters. Under the influence of weak external fluctuations, the model may be analyzed in terms of a stochastic differential equation bearing the form of an overdamped Langevin-like dynam…

Physicsresonant effects in cancerBistabilityPerturbation (astronomy)Tumor therapyFOS: Physical sciencesExternal noiseCondensed Matter PhysicsImmune surveillancePhysics - Medical PhysicsElectronic Optical and Magnetic MaterialsQuantitative Biology::Cell BehaviorExtinction timeStochastic differential equationBiological Physics (physics.bio-ph)Host organismStatistical physicsPhysics - Biological PhysicsMedical Physics (physics.med-ph)
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Theory and modeling of polarization switching in ferroelectrics

2005

Abstract Kinetics of polarization response in ferroelectrics is reproduced within Langevin, Fokker–Planck and imaginary time Schrodinger equation techniques for energy functionals of growing complexity modeling an assembly of coarse grained particles with attractive first neighbor interaction. Symplectic integration based numerical approach captures dynamic hysteresis, polarization switching, and spatially extended stationary polarization. Solution of relevant nonstationary problem is adapted to large scale parallel computing.

Physicssymbols.namesakeClassical mechanicsMaterials ChemistryCeramics and CompositesFerroelectric hysteresissymbolsStatistical physicsSymplectic integratorPolarization (waves)FerroelectricityImaginary timeSchrödinger equationJournal of the European Ceramic Society
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Heat transfer in conducting and radiating bodies

1997

Abstract We introduce briefly some nonlocal models for heat transfer in conducting and radiating media. The goal is to give an idea of the general mathematical structure and related existence results for such models.

Physicssymbols.namesakeClassical mechanicsStefan–Boltzmann lawThermal radiationNonlocal problemsApplied MathematicsHeat transfersymbolsStefan-Boltzmann lawStatistical physicsMathematical structureHeat radiationApplied Mathematics Letters
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Accurate Nonlinear Optical Properties for Small Molecules

2006

During the last decade it became possible to calculate by quantum chemical ab initio methods not only static but also frequency-dependent properties with high accuracy. Today, the most important tools for such calculations are coupled cluster response methods in combination with systematic hierarchies of correlation consistent basis sets. Coupled cluster response methods combine a computationally efficient treatment of electron correlation with a qualitatively correct pole structure and frequency dispersion of the response functions. Both are improved systematically within a hierarchy of coupled cluster models. The present contribution reviews recent advances in the highly accurate calculat…

Physicssymbols.namesakeCoupled clusterBasis (linear algebra)Electronic correlationFaraday effectsymbolsAb initioExtrapolationElectronic structureStatistical physicsBasis set
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