Search results for "value"

showing 10 items of 5321 documents

Characteristic structure of the resistive relativistic magnetohydrodynamic equations

2012

We present the analysis of the characteristic structure of the resistive (non-ideal) relativistic magnetohydrodynamics system of equations. This is a necessary step to develop high-resolution shock-capturing schemes that use the full characteristic information (Godunov-type methods), and it is convenient to establish proper boundary conditions.

PhysicsResistive touchscreenClassical mechanics010308 nuclear & particles physics0103 physical sciencesMathematical analysisStructure (category theory)Boundary value problemMagnetohydrodynamic driveMagnetohydrodynamics010306 general physicsSystem of linear equations01 natural sciencesAIP Conference Proceedings
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Instantaneous root mean squire value of the acoustic emission as a means of measuring partial discharges

2003

The author presents the measurement results of the parameter A/sub RMS/ for three types of partial discharges (PDs) generated in a typical high-voltage system: on pressboard, on resin, and on glass. A typical run of A/sub RMS/ on an X-Y register is shown. It manifests a relatively stable instantaneous root mean square value of the electric signal converted from the acoustic signal as a function of time. Results obtained for the three surfaces demonstrate that the parameter A/sub RMS/ is perfectly suitable for characterizing PDs measured by the acoustic method. It is univocally connected with the energy of the generated PD. >

PhysicsRoot mean squarePressboardAcoustic emissionAnalytical chemistryRoot (chord)Value (computer science)Function (mathematics)SignalEnergy (signal processing)Computational physicsConference on Electrical Insulation and Dielectric Phenomena
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A Monte-Carlo method to analyze the electromagnetic form factors of the nucleon

2007

Parity violating elastic electron-nucleon scattering allows to determine the vector stangeness content of the nucleon. The final uncertainty on the strange form factors is limited, among other parameters, by the uncertainty on the electromagnetic form factors. These are usually fitted with a functional form constrained by boundary conditions at Q 2= 0 and at large Q 2. These conditions induce huge correlations between parameters which are not taken into account to full extent by purely statistical methods. We describe here a Monte-Carlo method which accounts for correlations between parameters to all orders. We also propose a method for taking into account some systematical errors induced b…

PhysicsScatteringMonte Carlo methodParity (physics)Boundary value problemStatistical physicsNucleon
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Shape Optimization in Contact Problems. 1. Design of an Elastic Body. 2. Design of an Elastic Perfectly Plastic Body

1986

The optimal shape design of a two dimensional body on a rigid foundation is analyzed. The problem is how to find the boundary part of the body where the unilateral boundary conditions are assumed in such a way that a certain energy integral (total potential energy, for example) will be minimized. It is assumed that the material of the body is elastic. Some remarks will be given concerning the design of an elastic perfectly plastic body. Numerical examples will be given.

PhysicsShape designMathematical analysisFoundation (engineering)Boundary (topology)Shape optimizationShape optimization problemBoundary value problemPotential energyEnergy (signal processing)
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Mathematical background of the Riga dynamo experiment

2013

The Riga dynamo experiment is a laboratory model of the natural process that is responsible for all environmental magnetic-fields which are generated without human interference. This applies to the field of the Earth, the Sun, stars, and even galaxies which are produced by intense motions of large volumes of good electro-conducting fluids. For our experiment, we use molten sodium – the best liquid electro-conductor available in the laboratory. Approximately 2 m3 of molten sodium are filled into a prolonged cylinder, at the top of which rotates a propeller powered by 200 kW from two motors. The cylinder is divided by thin coaxial inner walls into three parts: in the inner tube the propeller …

PhysicsSodiumFlow (psychology)Computational MechanicsPropellerchemistry.chemical_elementAstronomy and AstrophysicsMechanicsCritical valueCylinder (engine)law.inventionGeophysicschemistryGeochemistry and PetrologyMechanics of MaterialslawTube (fluid conveyance)CoaxialDynamoGeophysical & Astrophysical Fluid Dynamics
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Spectral analysis of two-dimensional Bose-Hubbard models

2016

One-dimensional Bose-Hubbard models are well known to obey a transition from regular to quantum-chaotic spectral statistics. We are extending this concept to relatively simple two-dimensional many-body models. Also in two dimensions a transition from regular to chaotic spectral statistics is found and discussed. In particular, we analyze the dependence of the spectral properties on the bond number of the two-dimensional lattices and the applied boundary conditions. For maximal connectivity, the systems behave most regularly in agreement with the applicability of mean-field approaches in the limit of many nearest-neighbor couplings at each site.

PhysicsSpectral statisticsSpectral propertiesChaoticFOS: Physical sciencesNonlinear Sciences - Chaotic Dynamics01 natural sciences010305 fluids & plasmasQuantum Gases (cond-mat.quant-gas)Simple (abstract algebra)0103 physical sciencesSpectral analysisBond numberLimit (mathematics)Statistical physicsBoundary value problemChaotic Dynamics (nlin.CD)Condensed Matter - Quantum Gases010306 general physicsPhysical Review A
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Spin stiffness of vector spin glasses

2011

Abstract We study domain-wall excitations for O ( m ) vector spin glasses in the limit m → ∞ , where the energy landscape is simplified considerably compared to XY or Heisenberg models due to the complete disappearance of metastability. Using numerical ground-state calculations and appropriate pairs of complementary boundary conditions, domain-wall defects are inserted into the systems and their excitation energies are measured. This allows us to determine the stiffness exponents for lattices of a range of spatial dimensions d = 2 , … , 7 . Compiling these results, we can finally determine the lower critical dimension of the model. The outcome is compared to estimates resulting from field-t…

PhysicsSpin glassCondensed matter physicsGeneral Physics and AstronomyEnergy landscapeStiffnessHardware and ArchitectureQuantum mechanicsMetastabilitymedicineBoundary value problemmedicine.symptomCritical dimensionExcitationSpin-½Computer Physics Communications
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Kinetics of Domain Growth and Aging in a Two-Dimensional Off-lattice System

2020

We have used molecular dynamics simulations for a comprehensive study of phase separation in a two-dimensional single component off-lattice model where particles interact through the Lennard-Jones potential. Via state-of-the-art methods we have analyzed simulation data on structure, growth and aging for nonequilibrium evolutions in the model. These data were obtained following quenches of well-equilibrated homogeneous configurations, with density close to the critical value, to various temperatures inside the miscibility gap, having vapor-"liquid" as well as vapor-"solid" coexistence. For the vapor-liquid phase separation we observe that $\ell$, the average domain length, grows with time ($…

PhysicsSpinodal decompositionKineticsCrystal systemNon-equilibrium thermodynamicsThermodynamicsFOS: Physical sciencesCondensed Matter - Soft Condensed MatterCritical value01 natural sciences010305 fluids & plasmasPhase (matter)0103 physical sciencesExponentSoft Condensed Matter (cond-mat.soft)010306 general physicsScaling
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Dynamics of wetting transitions: A time-dependent Ginzburg-Landau treatment

1987

The dynamic behavior at wetting transitions is studied for systems with short-range forces and nonconserved order parameter. From a continuum limit of a purely relaxational lattice model in mean-field approximation, a time-dependent Ginzburg-Landau equation with a time-dependent boundary condition at the surface is derived in the long wavelength approximation. The dynamics of relaxation close to stable and metastable states is treated in linear response. A divergence of the relaxation time occurs both for critical wetting and along the surface spinodal lines (in the case of first-order wetting), although the static surface layer susceptibilities χ1, χ11 stay finite at the surface spinodal i…

PhysicsSpinodalCondensed matter physicsRelaxation (NMR)Condensed Matter PhysicsElectronic Optical and Magnetic MaterialsCondensed Matter::Soft Condensed MatterWetting transitionMetastabilityGeneral Materials ScienceIsing modelWettingBoundary value problemPhase diagramZeitschrift f�r Physik B Condensed Matter
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Surface-directed spinodal decomposition: Lattice model versus Ginzburg-Landau theory

2009

When a binary mixture is quenched into the unstable region of the phase diagram, phase separation starts by spontaneous growth of long-wavelength concentration fluctuations ("spinodal decomposition"). In the presence of surfaces, the latter provide nontrivial boundary conditions for this growth. These boundary conditions can be derived from lattice models by suitable continuum approximations. But the lattice models can also be simulated directly, and thus used to clarify the conditions under which the Ginzburg–Landau type theory is valid. This comparison shows that the latter is accurate only in the immediate vicinity of the bulk critical point, if thermal fluctuations can also be neglecte…

PhysicsSpinodalwettingCondensed matter physicsSpinodal decompositionBinary mixturesThermal fluctuationsStatistical and Nonlinear PhysicsCondensed Matter PhysicsKawasaki kinetic Ising modelCritical point (thermodynamics)Lattice (order)computer simulationGinzburg–Landau theoryBoundary value problemStatistical physicsphase separationPhase diagram
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