Search results for " Nonlinear"

showing 10 items of 1224 documents

Seismically induced, non-stationary hydrodynamic pressure in a dam-reservoir system

2003

Stochastic seismic analysis of hydrodynamic pressure in a dam-reservoir system is presented in this paper. The analysis is conducted assuming infinite reservoir compressible fluid and modeling seismic acceleration as a normal zero-mean stochastic process obtained by Penzien filter. The non-homogeneous boundary conditions associated to the problem have been incorporated into the equation of pressure wave scattering in the form of a forcing function turning the non-homogeneous boundary value problem into an homogeneous one. Solution obtained via modal analysis in time-domain is coupled with the use of classical Ito stochastic differential calculus to characterize the stochastic hydrodynamic p…

Field (physics)Stochastic processModal analysisMechanical EngineeringAerospace EngineeringOcean EngineeringStatistical and Nonlinear PhysicsMechanicsCondensed Matter PhysicsCompressible flowPhysics::GeophysicsSeismic analysisAccelerationFilter (large eddy simulation)Nuclear Energy and EngineeringGeotechnical engineeringBoundary value problemGeologyCivil and Structural EngineeringProbabilistic Engineering Mechanics
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The Bohm-Aharonov effect: A seven-dimensional structural group

1996

We realize a nonfaithful representation of a seven-dimensional Lie algebra, the extension of which to its universal enveloping algebra contains most of the observables of the scattering Aharonov-Bohm effect, as essentially self-adjoint operators: the scattering Hamiltonian, the total and kinetic angular momenta, the positions and the kinetic momenta. By restriction, we obtain the model introduced in Lett. Math. Phys.1 (1976), 155–163.

Filtered algebraQuantum affine algebraQuantum groupQuantum mechanicsCurrent algebraAlgebra representationStatistical and Nonlinear PhysicsUniversal enveloping algebraLie superalgebraCasimir elementMathematical PhysicsMathematicsLetters in Mathematical Physics
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Stressing sequence of steel cable-stayed bridges built by cantilevering

2015

The construction of cable-stayed bridges by cantilevering implies several changes of geometry, stress and strain patterns during the assemblage of segments. The main target to be satisfied in the construction process is the achievement of the required final geometry and of a convenient state of stress for self-weight and sustained loads. The sequence of stay stressing and the values of prestressing forces at each stage of segment assembling have the main role for reaching the desired result of design, due to the large redundancy of cable-stayed structures.Among the different procedures proposed in the literature for initial cable force determination, the Partial Elastic Scheme (PES) Method …

Finite element methodPrestressingConstruction processStaged constructionFinite element procedurePrestressing forcescable stayed bridgeGeometryCable stayed bridgesNonlinear behavioursSteel cable-stayed bridgesSettore ICAR/09 - Tecnica Delle CostruzioniGeometric non-linearityOffshore pipelinesCable stayed bridges; Finite element method; Geometry; Offshore pipelines; Prestressing; Construction process; Finite element procedure; Geometric non-linearity; Nonlinear behaviours; Prestressing forces; Staged construction; Steel cable-stayed bridges; Stress and strainStress and strain
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Repetition times for Gibbsian sources

1999

In this paper we consider the class of stochastic stationary sources induced by one-dimensional Gibbs states, with Holder continuous potentials. We show that the time elapsed before the source repeats its first n symbols, when suitably renormalized, converges in law either to a log-normal distribution or to a finite mixture of exponential random variables. In the first case we also prove a large deviation result.

Finite mixtureClass (set theory)Repetition (rhetorical device)Applied MathematicsPROCESSOS ESTOCÁSTICOSGeneral Physics and AstronomyHölder conditionStatistical and Nonlinear PhysicsExponential functionDistribution (mathematics)CalculusStatistical physicsRandom variableMathematical PhysicsMathematics
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BEAM ELEMENT UNDER FINITE ROTATIONS

2021

The present work focuses on the 2-D formulation of a nonlinear beam model for slender structures that can exhibit large rotations of the cross sections while remaining in the small-strain regime. Bernoulli-Euler hypothesis that plane sections remain plane and perpendicular to the deformed beam centerline is combined with a linear elastic stress-strain law. The formulation is based on the integrated form of equilibrium equations and leads to a set of three first-order differential equations for the displacements and rotation, which are numerically integrated using a special version of the shooting method. The element has been implemented into an open-source finite element code to ease comput…

Finite rotations nonlinear beam shooting methodSettore ICAR/08 - Scienza Delle Costruzioni
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Convergence of the finite volume method for a conductive-radiative heat transfer problem

2013

We show that the finite volume method rigorously converges to the solution of a conductive-radiative heat transfer problem with nonlocal and nonlinear boundary conditions. To get this result, we start by proving existence of solutions for a finite volume discretization of the original problem. Then, by obtaining uniform boundedness of discrete solutions and their discrete gradients with respect to mesh size, we finally get L 2type convergence of discrete solutions.

Finite volume methodconductive-radiative heat transferconvergenceMathematical analysisHeat transfer problemnonlocal and nonlinear boundary conditionsfinite volume methodType (model theory)Nonlinear boundary conditionsThermal radiationModeling and SimulationConvergence (routing)QA1-939Uniform boundednessElectrical conductorMathematicsAnalysisMathematicsMathematical Modelling and Analysis
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LARGE-SCALE SIMULATIONS IN CONDENSED MATTER PHYSICS —THE NEED FOR A TERAFLOP COMPUTER

1992

The introduction of vector processors {“supercomputers” with a performance in the range of 109 floating point operations (1 GFLOP) per second} has had an enormous impact on computational condensed matter physics. The possibility of a substantially enhanced performance by massively parallel processors (“teraflop” machines with 1012 floating point operations per second) will allow satisfactory treatment of a large range of important scientific problems which have to a great extent thus far escaped numerical resolution. The present paper describes only a few examples (out of a long list of interesting research problems!) for which the availability of “teraflops” will allow spectacular progres…

Floating pointCondensed matter physicsComputer scienceScale (chemistry)Monte Carlo methodGeneral Physics and AstronomyStatistical and Nonlinear PhysicsParallel computingLarge rangeFLOPSComputer Science ApplicationsMetallic alloyRange (mathematics)Computational Theory and MathematicsMassively parallelMathematical PhysicsInternational Journal of Modern Physics C
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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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