Search results for "probability"

showing 10 items of 3417 documents

The distribution of velocities in an ensemble of accelerated particles on a surface

2016

An ensemble of particles diffusing with acceleration on a surface is considered as a 2D billiard system. The process of the finite-time diffusion of particles is studied using the balance equation. The probability distribution functions of the velocity and lifetime of particles are obtained analytically and by means of numerical simulations. A thermodynamic interpretation of the process is discussed. The effective temperature and entropy obey the relationship for an ideal gas.

Statistics and ProbabilityPhysicsIsothermal–isobaric ensembleStatistical and Nonlinear Physics02 engineering and technologyMechanicsEffective temperature021001 nanoscience & nanotechnology01 natural sciencesIdeal gas0103 physical sciencesOpen statistical ensembleBalance equationProbability distributionStatistical physicsStatistics Probability and UncertaintyDynamical billiards010306 general physics0210 nano-technologyJournal of Statistical Mechanics: Theory and Experiment
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Spatial decoherence in QED

2006

We consider the dynamics of a charged free particle, initially described by a coherent wave packet, interacting with an electromagnetic field characterized by the temperature T, considered as the environment. We have used dipole approximation neglecting the potential vector quadratic term in the minimal coupling Hamiltonian. This leads to the loss of coherence in the momentum representation, described by the decay of the off diagonal elements of the particle reduced density matrix, while the populations remain constant. Here we extend the analysis to the coordinate representation. We compute the particle reduced density matrix in this basis, analyzing in particular the mixing of various ef…

Statistics and ProbabilityPhysicsMinimal couplingFree particleQuantum decoherenceWave packetStatistical and Nonlinear PhysicsPosition and momentum spaceCoherence lengthsymbols.namesakeQuantum electrodynamicsQuantum mechanicsUANTUM COMPUTERSMECHANICSsymbolsHamiltonian (quantum mechanics)Mathematical PhysicsCoherence (physics)
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Dynamical block analysis in a non-equilibrium system

1991

Abstract We present molecular dynamics simulation results of quenches into the unstable region of a two-dimensional Lennard-Jones system. The evolution of the system from the non-equilibrium state into equilibrium was analyzed with a dynamical block analysis. This can lead to a new approach in the study of non-equilibrium phenomena. We show that with such an analysis one can obtain results on the dynamic evolution as the system evolves, consistent with those obtained from and analysis of the pair-distribution function, structure factor and excess energy. The simulations were carried out on the parallel computer of the condensed matter theory group at the University of Mainz.

Statistics and ProbabilityPhysicsMolecular dynamicsGroup (mathematics)Block (permutation group theory)Statistical physicsFunction (mathematics)State (functional analysis)Condensed Matter PhysicsStructure factorExcess energyPhysica A: Statistical Mechanics and its Applications
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Estimating Mean Lifetime from Partially Observed Events in Nuclear Physics

2022

Abstract The mean lifetime is an important characteristic of particles to be identified in nuclear physics. State-of-the-art particle detectors can identify the arrivals of single radioactive nuclei as well as their subsequent radioactive decays (departures). Challenges arise when the arrivals and departures are unmatched and the departures are only partially observed. An inefficient solution is to run experiments where the arrival rate is set very low to allow for the matching of arrivals and departures. We propose an estimation method that works for a wide range of arrival rates. The method combines an initial estimator and a numerical bias correction technique. Simulations and examples b…

Statistics and ProbabilityPhysicsNuclear physicsdesign of experimentsmissing datanoisy binary searchradioactive decayPoisson processStatistics Probability and Uncertaintyydinfysiikkatilastolliset mallitestimointiradioaktiivisuusJournal of the Royal Statistical Society Series C: Applied Statistics
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Quantum Ring in a Magnetic Field: High Harmonic Generation and NOT Logic Gate

2020

The effect of a static magnetic field on the high harmonic generation (HHG) from a quantum ring driven by one laser polarized along the x-axis is studied. The spin polarization (Formula presented.) and the temporal emission of the harmonics are studied by varying the intensity of the magnetic field and it is shown how these results have a significant technological impact in computer technology; in fact a boolean algebra can be implemented by assigning 0 and 1 values to low and high pulse intensities of the emitted harmonics and logic gates like the NOT can be created.

Statistics and ProbabilityPhysicsNumerical AnalysisRing (mathematics)Multidisciplinaryhigh harmonic generationquantum computingMagnetic fieldModeling and SimulationQuantum mechanicsLogic gatelogic gatesHigh harmonic generationnanoringsQuantumQuantum computerAdvanced Theory and Simulations
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Quantum graphs with mixed dynamics: the transport/diffusion case

2013

We introduce a class of partial differential equations on metric graphs associated with mixed evolution: on some edges we consider diffusion processes, on other ones transport phenomena. This yields a system of equations with possibly nonlocal couplings at the boundary. We provide sufficient conditions for these to be governed by a contractive semigroup on a Hilbert space naturally associated with the system. We show that our setting is also adequate to discuss specific systems of diffusion equations with boundary delays.

Statistics and ProbabilityPhysicsPartial differential equationSemigroupMathematical analysis34B45 47D06 47N50Hilbert spaceFOS: Physical sciencesGeneral Physics and AstronomyBoundary (topology)Statistical and Nonlinear PhysicsMathematical Physics (math-ph)System of linear equationssymbols.namesakeMathematics - Analysis of PDEsModeling and SimulationQuantum graphFOS: MathematicssymbolsDiffusion (business)Transport phenomenaMathematical PhysicsAnalysis of PDEs (math.AP)
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On multi-scale percolation behaviour of the effective conductivity for the lattice model with interacting particles

2015

Recently, the effective medium approach using 2x2 basic cluster of model lattice sites to predict the conductivity of interacting droplets has been presented by Hattori et al. To make a step aside from pure applications, we have studied earlier a multi-scale percolation, employing any kxk basic cluster for non-interacting particles. Here, with interactions included, we examine in what way they alter the percolation threshold for any cluster case. We found that at a fixed length scale k the interaction reduces the range of shifts of the percolation threshold. To determine the critical concentrations, the simplified model is used. It diminishes the number of local conductivities into two main…

Statistics and ProbabilityPhysicsPercolation critical exponentsCondensed matter physicsStatistical Mechanics (cond-mat.stat-mech)business.industryFOS: Physical sciencesPercolation thresholdConductivityCondensed Matter Physics01 natural sciencesDirected percolation010305 fluids & plasmasLattice (order)0103 physical sciencesMicroemulsionFixed length010306 general physicsbusinessThermal energyCondensed Matter - Statistical Mechanics
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Phase transition shifts in films

1991

Abstract We present a Monte Carlo computer simulation study of phase transitions in a three-dimensional Ising/lattice gas model with nearest neighbor attractive coupling and confined to a slit-like capillary with absorbing walls. Data are generated for thicknesses D ⩽ 40 and are used to study the shift of the phase boundaries due to finite wall separation.

Statistics and ProbabilityPhysicsPhase transitionCondensed matter physicsCapillary actionLattice (order)Monte Carlo methodIsing modelCondensed Matter Physicsk-nearest neighbors algorithmPhysica A: Statistical Mechanics and its Applications
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Thermodynamic potentials for the infinite range Ising model with strong coupling

2003

Abstract The specific Gibbs free energy has been calculated for the infinite range Ising model with fixed and finite interaction strength. The model shows a temperature driven first-order phase transition that differs from the infinite ranged Ising model with weak coupling. In the temperature-field phase diagram the strong coupling model shows a line of first-order phase transitions that does not end in a critical point.

Statistics and ProbabilityPhysicsPhase transitionCondensed matter physicsMean field theoryCritical point (thermodynamics)Critical phenomenaSquare-lattice Ising modelIsing modelCondensed Matter PhysicsPhase diagramThermodynamic potentialPhysica A: Statistical Mechanics and its Applications
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Phase Transitions in the Multicomponent Widom-Rowlinson Model and in Hard Cubes on the BCC--Lattice

1997

We use Monte Carlo techniques and analytical methods to study the phase diagram of the M--component Widom-Rowlinson model on the bcc-lattice: there are M species all with the same fugacity z and a nearest neighbor hard core exclusion between unlike particles. Simulations show that for M greater or equal 3 there is a ``crystal phase'' for z lying between z_c(M) and z_d(M) while for z > z_d(M) there are M demixed phases each consisting mostly of one species. For M=2 there is a direct second order transition from the gas phase to the demixed phase while for M greater or equal 3 the transition at z_d(M) appears to be first order putting it in the Potts model universality class. For M large, …

Statistics and ProbabilityPhysicsPhase transitionCondensed matter physicsStatistical Mechanics (cond-mat.stat-mech)FOS: Physical sciencesRenormalization groupCondensed Matter Physicsk-nearest neighbors algorithmLattice (order)Ising modelFugacityCondensed Matter - Statistical MechanicsPhase diagramPotts model
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