Search results for "periodic"

showing 10 items of 769 documents

General framework for testing Poisson-Voronoi assumption for real microstructures

2020

Modeling microstructures is an interesting problem not just in Materials Science but also in Mathematics and Statistics. The most basic model for steel microstructure is the Poisson-Voronoi diagram. It has mathematically attractive properties and it has been used in the approximation of single phase steel microstructures. The aim of this paper is to develop methods that can be used to test whether a real steel microstructure can be approximated by such a model. Therefore, a general framework for testing the Poisson-Voronoi assumption based on images of 2D sections of real metals is set out. Following two different approaches, according to the use or not of periodic boundary conditions, thre…

FOS: Computer and information sciencesreal microstructuresPoisson-Voronoi diagrams0211 other engineering and technologies02 engineering and technologyManagement Science and Operations ResearchPoisson distribution01 natural sciencesStatistics - ApplicationsMethodology (stat.ME)Set (abstract data type)010104 statistics & probabilitysymbols.namesakehypothesis testingPeriodic boundary conditionsApplied mathematicsApplications (stat.AP)0101 mathematicsStatistics - MethodologyStatistical hypothesis testing021103 operations researchCumulative distribution functionDiagramscalingGeneral Business Management and Accounting62P30 62-00 62-01 62G10persistence landscapeModeling and SimulationsymbolsTopological data analysiscumulative distribution functionVoronoi diagramApplied Stochastic Models in Business and Industry
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Introduction: Periodic Filters and Filter Banks

2014

In this chapter filtering of periodic signals is outlined. Periodic filters and periodic filter banks are defined. Perfect reconstruction filter banks are characterized via their polyphase matrices.

Finite impulse responseComputer sciencePeriodic sequencePolyphase systemFilter (signal processing)Capacitor-input filterTopologyX-ray filterInfinite impulse responseImpulse responseComputer Science::Other
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Quantum Nekhoroshev Theorem for Quasi-Periodic Floquet Hamiltonians

1998

A quantum version of Nekhoroshev estimates for Floquet Hamiltonians associated to quasi-periodic time dependent perturbations is developped. If the unperturbed energy operator has a discrete spectrum and under finite Diophantine conditions, an effective Floquet Hamiltonian with pure point spectrum is constructed. For analytic perturbations, the effective time evolution remains close to the original Floquet evolution up to exponentially long times. We also treat the case of differentiable perturbations.

Floquet theoryDiophantine equationMathematical analysisStatistical and Nonlinear PhysicsEffective timeEnergy operatorsymbols.namesakesymbolsDifferentiable functionQuasi periodicHamiltonian (quantum mechanics)QuantumMathematical PhysicsMathematicsMathematical physicsReviews in Mathematical Physics
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Diffusive energy growth in classical and quantum driven oscillators

1991

We study the long-time stability of oscillators driven by time-dependent forces originating from dynamical systems with varying degrees of randomness. The asymptotic energy growth is related to ergodic properties of the dynamical system: when the autocorrelation of the force decays sufficiently fast one typically obtains linear diffusive growth of the energy. For a system with good mixing properties we obtain a stronger result in the form of a central limit theorem. If the autocorrelation decays slowly or does not decay, the behavior can depend on subtle properties of the particular model. We study this dependence in detail for a family of quasiperiodic forces. The solution involves the ana…

Floquet theoryDynamical systems theoryStatistical and Nonlinear PhysicsQuantum chaossymbols.namesakeClassical mechanicsQuasiperiodic functionsymbolsHamiltonian (quantum mechanics)Mathematical PhysicsHarmonic oscillatorEigenvalues and eigenvectorsRandomnessMathematicsJournal of Statistical Physics
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Floquet spectrum for two-level systems in quasiperiodic time-dependent fields

1992

We study the time evolution ofN-level quantum systems under quasiperiodic time-dependent perturbations. The problem is formulated in terms of the spectral properties of a quasienergy operator defined in an enlarged Hilbert space, or equivalently of a generalized Floquet operator. We discuss criteria for the appearance of pure point as well as continuous spectrum, corresponding respectively to stable quasiperiodic dynamics and to unstable chaotic behavior. We discuss two types of mechanisms that lead to instability. The first one is due to near resonances, while the second one is of topological nature and can be present for arbitrary ratios between the frequencies of the perturbation. We tre…

Floquet theoryKolmogorov–Arnold–Moser theoremContinuous spectrumMathematical analysisHilbert spaceTime evolutionStatistical and Nonlinear PhysicsQuantum chaossymbols.namesakeClassical mechanicsQuasiperiodic functionsymbolsQuantum systemMathematical PhysicsMathematicsJournal of Statistical Physics
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Dynamical stability of a many-body Kapitza pendulum

2015

We consider a many-body generalization of the Kapitza pendulum: the periodically-driven sine-Gordon model. We show that this interacting system is dynamically stable to periodic drives with finite frequency and amplitude. This finding is in contrast to the common belief that periodically-driven unbounded interacting systems should always tend to an absorbing infinite-temperature state. The transition to an unstable absorbing state is described by a change in the sign of the kinetic term in the effective Floquet Hamiltonian and controlled by the short-wavelength degrees of freedom. We investigate the stability phase diagram through an analytic high-frequency expansion, a self-consistent vari…

Floquet theoryPhysicsDynamical instabilitiesQuantum Physicsperiodic drivingsGeneral Physics and AstronomySemiclassical physicsFOS: Physical sciencesKinetic termMany bodyDynamical instabilities periodic drivingssymbols.namesakeAmplitudeClassical mechanicsQuantum Gases (cond-mat.quant-gas)symbolsCondensed Matter - Quantum GasesHamiltonian (quantum mechanics)Quantum Physics (quant-ph)QuantumPhase diagram
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Floquet theory for temporal correlations and spectra in time-periodic open quantum systems: Application to squeezed parametric oscillation beyond the…

2021

Open quantum systems can display periodic dynamics at the classical level either due to external periodic modulations or to self-pulsing phenomena typically following a Hopf bifurcation. In both cases, the quantum fluctuations around classical solutions do not reach a quantum-statistical stationary state, which prevents adopting the simple and reliable methods used for stationary quantum systems. Here we put forward a general and efficient method to compute two-time correlations and corresponding spectral densities of time-periodic open quantum systems within the usual linearized (Gaussian) approximation for their dynamics. Using Floquet theory we show how the quantum Langevin equations for…

Floquet theoryPhysicsQuantum PhysicsTime periodicComputationParametric oscillationFOS: Physical sciencesFísicaÒpticaOptometria01 natural sciencesSpectral line010305 fluids & plasmasRange (mathematics)0103 physical sciencesRotating wave approximationVisióStatistical physicsQuantum Physics (quant-ph)010306 general physicsQuantum
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From Random Walker to Vehicular Traffic: Motion on a Circle

2014

Driving of cars on a highway is a complex process which can be described by deterministic and stochastic forces. It leads to equations of motion with asymmetric interaction and dissipation as well as to new energy flow law already presented at previous TRAFFIC AND GRANULAR FLOW meetings. Here we consider a model, where motion of an asymmetric random walker on a ring with periodic boundary conditions takes place. It is related to driven systems with active particles, energy input and depot. This simple model can be further developed towards more complicated ones, describing vehicular or pedestrian traffic. Three particular cases are considered, starting with discrete coordinate and time, the…

Flow (mathematics)Random walker algorithmComputer scienceContinuum (topology)Mathematical analysisPeriodic boundary conditionsMotion (geometry)Equations of motionLimit (mathematics)Dissipation
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Stability in a System subject to Noise with Regulated Periodicity

2011

The stability of a simple dynamical system subject to multiplicative one-side pulse noise with hidden periodicity is investigated both analytically and numerically. The stability analysis is based on the exact result for the characteristic functional of the renewal pulse process. The influence of the memory effects on the stability condition is analyzed for two cases: (i) the dead-time-distorted poissonian process, and (ii) the renewal process with Pareto distribution. We show that, for fixed noise intensity, the system can be stable when the noise is characterized by high periodicity and unstable at low periodicity.

Fluctuation phenomena random processes noise and Brownian motionPeriodicityStochastic processProbability theory stochastic processes and statisticStochastic analysis methodsOrnstein–Uhlenbeck processModels TheoreticalStability (probability)Settore FIS/03 - Fisica Della MateriaStable processsymbols.namesakeStochastic differential equationNoiseControl theorysymbolsPareto distributionRenewal theoryStatistical physicsMathematics
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Redox potentials and acidity constants from density functional theory based molecular dynamics.

2014

CONSPECTUS: All-atom methods treat solute and solvent at the same level of electronic structure theory and statistical mechanics. All-atom computation of acidity constants (pKa) and redox potentials is still a challenge. In this Account, we review such a method combining density functional theory based molecular dynamics (DFTMD) and free energy perturbation (FEP) methods. The key computational tool is a FEP based method for reversible insertion of a proton or electron in a periodic DFTMD model system. The free energy of insertion (work function) is computed by thermodynamic integration of vertical energy gaps obtained from total energy differences. The problem of the loss of a physical refe…

Free energy perturbationMolecular dynamicsStandard hydrogen electrodeChemistryPeriodic boundary conditionsThermodynamicsThermodynamic integrationPhysical chemistryDensity functional theoryGeneral MedicineGeneral ChemistryElectronic structureIonization energyAccounts of chemical research
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