Search results for "SIMULATION"

showing 10 items of 5095 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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Polar coordinates in Taekwondo

2016

[EN] In observational methodology, inter‐relational behaviors are relevant for coaches and athletes to know which behaviors are dependent or inexistent while others occur.

Physicslcsh:SportsTaekwondoMaterials Science (miscellaneous)combat sportsArtes marciales asiáticasGeometrybehavior patternsIndustrial and Manufacturing Engineeringlcsh:GV557-1198.995Olympic GamesEducación FísicaEntrenamiento y formaciónBusiness and International ManagementPolar coordinate systemSimulationRevista de Artes Marciales Asiáticas
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Event-Driven Simulation of the Dynamics of Hard Ellipsoids

2008

We introduce a novel algorithm to perform event-driven simulations of hard rigid bodies of arbitrary shape, that relies on the evaluation of the geometric distance. In the case of a monodisperse system of uniaxial hard ellipsoids,we perform molecular dynamics simulations varying the aspect-ratio X0 and the packing fraction phi. We evaluate the translational Dtrans and the rotational Drot diffusion coefficient and the associated isodiffusivity lines in the phi-X0 plane. We observe a decoupling of the translational and rotational dynamics which generates an almost perpendicular crossing of the Dtrans and Drot isodiffusivity lines. While the self intermediate scattering function exhibits stret…

Physicsnematic orderhard ellipsoidsCondensed Matter - Materials SciencePlane (geometry)Materials Science (cond-mat.mtrl-sci)FOS: Physical sciencesContext (language use)Decoupling (cosmology)mode coupling theoryCondensed Matter - Soft Condensed MatterAtomic packing factorEllipsoidcomputer simulation; glass transition; hard ellipsoids; mode coupling theory; nematic orderMolecular dynamicsClassical mechanicsPerpendicularcomputer simulationRelaxation (physics)Soft Condensed Matter (cond-mat.soft)glass transition
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Coupled fluid-flow and magnetic-field simulation of the Riga dynamo experiment

2006

Magnetic fields of planets, stars, and galaxies result from self-excitation in moving electroconducting fluids, also known as the dynamo effect. This phenomenon was recently experimentally confirmed in the Riga dynamo experiment [ A. Gailitis et al., Phys. Rev. Lett. 84, 4365 (2000) ; A. Gailitis et al., Physics of Plasmas 11, 2838 (2004) ], consisting of a helical motion of sodium in a long pipe followed by a straight backflow in a surrounding annular passage, which provided adequate conditions for magnetic-field self-excitation. In this paper, a first attempt to simulate computationally the Riga experiment is reported. The velocity and turbulence fields are modeled by a finite-volume Navi…

Physicsplasma simulationfinite volume methodsTurbulenceMechanicsCondensed Matter Physicsplasma transport processesMagnetic fieldPhysics::Fluid DynamicsCoupling (physics)Classical mechanicsFlow velocityplasma turbulenceDynamo theoryFluid dynamicsMagnetohydrodynamicsNavier-Stokes equationsplasma magnetohydrodynamicsfinite difference methodsDynamo
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The Numerical Simulation of Relativistic Fluid Flow with Strong Shocks

2001

In this review we present and analyze the performance of a Go-dunov type method applied to relativistic fluid flow. Our model equations are the corresponding Euler equations for special relativistic hydrodynamics. By choosing an appropriate vector of unknowns, the equations of special relativistic fluid dynamics (RFD) can be written as a hyperbolic system of conservation laws. We give a complete description of the spectral decomposition of the Jacobian matrices associated to the fluxes in each spatial direction, (see (Donat et al., 1998), for details), which is the essential ingredient of the Godunov-type numerical method we propose in this paper. We also review a numerical flux formula tha…

Physicssymbols.namesakeConservation lawClassical mechanicsComputer simulationFlow (mathematics)Lorentz transformationNumerical analysisMathematical analysisJacobian matrix and determinantsymbolsRiemann solverEuler equations
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Simulation Software for Flow of Fluid with Suspended Point Particles in Complex Domains: Application to Matrix Diffusion

2013

Matrix diffusion is a phenomenon in which tracer particles convected along a flow channel can diffuse into porous walls of the channel, and it causes a delay and broadening of the breakthrough curve of a tracer pulse. Analytical and numerical methods exist for modeling matrix diffusion, but there are still some features of this phenomenon, which are difficult to address using traditional approaches. To this end we propose to use the lattice-Boltzmann method with point-like tracer particles. These particles move in a continuous space, are advected by the flow, and there is a stochastic force causing them to diffuse. This approach can be extended to include particle-particle and particle-wall…

Physics::Fluid DynamicsFlow (mathematics)Computer scienceNumerical analysisPoint (geometry)Domain decomposition methodsMechanicscomputer.software_genrePorositycomputerSimulationSimulation softwarePulse (physics)
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A Model for Homogenization of Solid Alloying Admixtures in an Induction Crucible Furnace

2014

The paper presents a methodology for identification of homogenization time of alloying inclusions in an induction crucible furnace. The methodology is based on the Large Eddy Simulation (LES) Euler-Lagrange calculation of inclusions and a regression model for size of the inclusions and their density. The presented regression model avoids the repeated LES calculations and, therefore, is suitable for an optimization task.

Physics::Fluid DynamicsMaterials scienceMetallurgyMaterials ChemistryMetals and AlloysPhysical and Theoretical ChemistryCondensed Matter PhysicsHomogenization (chemistry)Large eddy simulationsteel research international
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Numerical simulation and analysis of heat and mass transfer processes in metallurgical induction applications

2009

Comprehensive knowledge of the heat and mass transfer processes in the melt of induction applications is required to realize efficient metallurgical processes. Experimental and numerical studies of the melt flow in induction furnaces show that the flow pattern, which comprise several vortexes of the mean flow, and the temperature distribution in the melt are significantly influenced by low-frequency large scale flow oscillations. Two- and three-dimensional hydrodynamic calculations of the melt flow, using two-equation turbulence models based on Reynolds Averaged Navier-Stokes approach, do not predict the large scale periodic flow instabilities obtained from the experimental data. That's why…

Physics::Fluid DynamicsPhysicsFlow (mathematics)TurbulenceMass transferMetallurgyHeat transferMean flowNavier–Stokes equationsMelt flow indexLarge eddy simulationIEEE EUROCON 2009
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Field and numerical study of river confluence flow structures

2010

River hydrodynamics Turbulent open channel flow and transport phenomena

Physics::Fluid DynamicsPhysics::Space PhysicsIngenieurwissenschaften (620)Numerical simulation Large Eddy simulation HydrodynamicsPhysics::Atmospheric and Oceanic PhysicsComputer Science::Information TheoryPhysics::Geophysics
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Effect of a Steady Magnetic Field and Imposed Rotation of Vessel on Heat and Mass Transfer in Swirling Recirculating Flows

1999

A simplified theoretical model for the solidification interface shape prediction is introduced and tested. We linearised a coupled hydrodynamic-solidification problem about the state with a flat interface. In such a way we split the problem into a hydrodynamic part with a flat solid-liquid front and a solidification part with a calculated heat flux from the liquid phase. The method allows obvious conclusions on optimum heat conditions near the solidification interface providing its flatness and maximum pulling velocity at the same time. Comparison to the results by FLUENT package showed that the method provides a reasonable accuracy even for a noticeably deformed interface shape. Another pa…

Physics::Fluid DynamicsRotating magnetic fieldMaterials scienceConvective heat transferComputer simulationHeat fluxFlatness (systems theory)FluentThermodynamicsThermomagnetic convectionMechanicsRotation
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