Search results for "Boltzmann equation"

showing 10 items of 49 documents

Spreading dynamics of three-dimensional droplets by the lattice-Boltzmann method

2000

Abstract We have simulated spreading of small droplets on smooth and rough solid surfaces using the three-dimensional lattice-Boltzmann method. We present results for the influence of the initial distance and shape of the drop from the surface on scaling of droplet radius R as a function of time. For relatively flat initial drop shapes our observations are consistent with Tanner's law R ∼ t q , where q =1/10. For increasingly spherical initial shapes, the exponent q increases rapidly being above one half for spherical droplets initially just above the surface. As expected, surface roughness slows down spreading, decreases the final drop radius, and results in irregular droplet shape due to …

One halfGeneral Computer ScienceChemistryDrop (liquid)Lattice Boltzmann methodsGeneral Physics and AstronomyWettingGeneral ChemistryMechanicsSurface finishBoltzmann equationPhysics::Fluid DynamicsDropletComputational MathematicsClassical mechanicsMechanics of MaterialsSurface roughnessGeneral Materials ScienceWettingScalingLattice-Boltzmann
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Non Markovian Behavior of the Boltzmann-Grad Limit of Linear Stochastic Particle Systems

2007

We will review some results which illustrate how the distribution of obstacles and the shape of the characteristic curves influence the convergence of the probability density of linear stochastic particle systems to the one particle probability density associated with a Markovian process in the Boltzmann-Grad asymptotics.

Particle systemPhysicsLorentz gas82C21Applied MathematicsGeneral Mathematicsforce field82C40Markov processlattice gasForce field (chemistry)symbols.namesake60K35Boltzmann constantLinear Boltzmann equationsymbolsStatistical physicsnon MarkovianLinear boltzmann equation
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The Boltzmann Probability as a Unifying Approach to Different Phenomena

2010

We discuss a pedagogical approach to the role of the Boltzmann probability in describing the temperature dependence of three simple experimental situations. The approach has been experimented in an introductory course on statistical mechanics for undergraduate engineering students at University of Palermo.

Physics4. Education05 social sciencesPhysics education050301 educationGeneral Physics and AstronomyStatistical mechanics01 natural sciencesBoltzmann equationBoltzmann distributionsymbols.namesakeviscous liquids flowSimple (abstract algebra)Boltzmann probability0103 physical sciencesBoltzmann constantComputingMilieux_COMPUTERSANDEDUCATIONsymbolschemical clock reactionthermionic emissionUndergraduate engineeringStatistical physics010306 general physics0503 education
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Quantum size effects in a one-dimensional semimetal

2006

We study theoretically the quantum size effects in a one-dimensional semimetal by a Boltzmann transport equation. We derive analytic expressions for the electrical conductivity, Hall coefficient, magnetoresistance, and the thermoelectric power in a nanowire. The transport coefficients of semimetal oscillate as the size of the sample shrinks. Below a certain size the semimetal evolves into a semiconductor. The semimetal-semiconductor transition is discussed quantitatively. The results should make a theoretical ground for better understanding of transport phenomena in low-dimensional semimetals. They can also provide useful information while studying low-dimensional semiconductors in general.

PhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsMagnetoresistanceCondensed matter physicsbusiness.industryNanowireFOS: Physical sciencesCondensed Matter PhysicsCondensed Matter::Mesoscopic Systems and Quantum Hall EffectBoltzmann equationSemimetalElectronic Optical and Magnetic MaterialsCondensed Matter::Materials ScienceSemiconductorHall effectQuantum mechanicsSeebeck coefficientMesoscale and Nanoscale Physics (cond-mat.mes-hall)Condensed Matter::Strongly Correlated ElectronsbusinessTransport phenomena
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Thermoelectric Effects: Semiclassical and Quantum Approaches from the Boltzmann Transport Equation

2013

The thermoelectric efficiency of a material depends on its electronic and phononic properties. It is normally given in terms of the dimensionless figure of merit Z T = σ S 2 T ∕ κ. The parameters involved in Z T are the electrical conductivity σ, the Seebeck coefficient S, and the thermal conductivity κ. The thermal conductivity has two contributions, κ = κ e + κ L , the electron thermal conductivity κ e and the lattice thermal conductivity κ L . In this chapter all these parameters will be deduced for metals and semiconductors, starting from the Boltzmann transport equation (BTE). The electrical conductivity, the Seebeck coefficient, and the electronic thermal conductivity will be obtained…

PhysicsCondensed Matter::Materials ScienceThermal conductivityCondensed matter physicsPhononElectrical resistivity and conductivityCondensed Matter::SuperconductivitySeebeck coefficientTransport coefficientThermoelectric effectElectronPhysics::Classical PhysicsBoltzmann equation
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Spin accumulation in metallic thin films induced by electronic impurity scattering

2021

In order to explore the spin accumulation, evaluating the spin galvanic and spin Hall effect, we utilize the semi-classical Boltzmann equation based on input from the relativistic Korringa-Kohn-Rostoker Green's function method, within the density functional theory. We calculate the spin accumulation including multiple contributions, especially skew-scattering (scattering-in term) and compare this to three different approximations, which include the isotropic and anisotropic relaxation time approximation. For heavy metals, with strong intrinsic spin-orbit coupling, we find that almost all the effects are captured within the anisotropic relaxation time approximation. On the other hand, in lig…

PhysicsCondensed matter physicsImpurityScatteringPoint reflectionSemiclassical physicsCondensed Matter::Strongly Correlated ElectronsDensity functional theoryAnisotropyBoltzmann equationSpin-½Physical Review B
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A new multidimensional, energy-dependent two-moment transport code for neutrino-hydrodynamics

2015

We present the new code ALCAR developed to model multidimensional, multi energy-group neutrino transport in the context of supernovae and neutron-star mergers. The algorithm solves the evolution equations of the 0th- and 1st-order angular moments of the specific intensity, supplemented by an algebraic relation for the 2nd-moment tensor to close the system. The scheme takes into account frame-dependent effects of order O(v/c) as well as the most important types of neutrino interactions. The transport scheme is significantly more efficient than a multidimensional solver of the Boltzmann equation, while it is more accurate and consistent than the flux-limited diffusion method. The finite-volum…

PhysicsHigh Energy Astrophysical Phenomena (astro-ph.HE)DiscretizationFOS: Physical sciencesAstronomy and AstrophysicsContext (language use)SolverBoltzmann equationAlgebraic closureMoment (mathematics)Space and Planetary ScienceApplied mathematicsTensorNeutrinoAstrophysics - High Energy Astrophysical Phenomena
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Derivation of transient relativistic fluid dynamics from the Boltzmann equation

2012

In this work we present a general derivation of relativistic fluid dynamics from the Boltzmann equation using the method of moments. The main difference between our approach and the traditional 14-moment approximation is that we will not close the fluid-dynamical equations of motion by truncating the expansion of the distribution function. Instead, we keep all terms in the moment expansion. The reduction of the degrees of freedom is done by identifying the microscopic time scales of the Boltzmann equation and considering only the slowest ones. In addition, the equations of motion for the dissipative quantities are truncated according to a systematic power-counting scheme in Knudsen and inve…

PhysicsHigh Energy Physics - TheoryNuclear and High Energy Physicsta114Nuclear TheoryDegrees of freedom (physics and chemistry)Lattice Boltzmann methodsEquations of motionFOS: Physical sciencesMethod of moments (statistics)Plasma modelingBoltzmann equationNuclear Theory (nucl-th)Physics::Fluid DynamicsHigh Energy Physics - PhenomenologyClassical mechanicsHigh Energy Physics - Phenomenology (hep-ph)High Energy Physics - Theory (hep-th)Direct simulation Monte CarloKnudsen number
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A fast solver for nonlocal electrostatic theory in biomolecular science and engineering

2011

Biological molecules perform their functions surrounded by water and mobile ions, which strongly influence molecular structure and behavior. The electrostatic interactions between a molecule and solvent are particularly difficult to model theoretically, due to the forces' long range and the collective response of many thousands of solvent molecules. The dominant modeling approaches represent the two extremes of the trade-off between molecular realism and computational efficiency: all-atom molecular dynamics in explicit solvent, and macroscopic continuum theory (the Poisson or Poisson--Boltzmann equation). We present the first fast-solver implementation of an advanced nonlocal continuum theo…

PhysicsMolecular dynamicsReciprocity (electromagnetism)Molecular biophysicsNanofluidicsStatistical physicsPoisson's equationSolverPoisson–Boltzmann equationBoltzmann equationComputational physicsProceedings of the 48th Design Automation Conference
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Derivation of transient relativistic fluid dynamics from the Boltzmann equation for a multi-component system

2012

We derive the non-equilibrium single-particle momentum distribution function of a hadron resonance gas. We then study the effects that this newly derived expression can have in the freeze-out description of fluid-dynamical models of heavy ion collisions and compare it with the method traditionally employed, the 14-moment approximation.

PhysicsNuclear and High Energy PhysicsNuclear Theoryta114Component (thermodynamics)Dynamics (mechanics)HadronFOS: Physical sciencesBoltzmann equationResonance (particle physics)MomentumNuclear Theory (nucl-th)High Energy Physics - PhenomenologyClassical mechanicsDistribution functionHigh Energy Physics - Phenomenology (hep-ph)Statistical physicsTransient (oscillation)Nuclear ExperimentNuclear Physics A
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