Search results for "T method"

showing 10 items of 1254 documents

Application of Rotational Measurements in Stiffness Reconstruction of Beams and Frames

2009

A stiffness reconstruction method is tested when rotational degrees of freedom are added to the dynamic model of the structure. The inverse problem is formulated as a minimization problem in terms of harmonic vibrations of the structure and its finite element model. An example of frame structure is analyzed by numerical simulations. The results of these numerical analyses show that the damage detection appeared to be much more effective when the angular amplitudes of harmonic vibrations are acquired. This makes very good prospects for the future applications of angular sensors in damage detection of structures.

PhysicsMechanical EngineeringFrame (networking)Mathematical analysisStiffnessInverse problemFinite element methodVibrationClassical mechanicsAmplitudeMechanics of MaterialsmedicineGeneral Materials Sciencemedicine.symptomRotation (mathematics)Beam (structure)Key Engineering Materials
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Covariant approximation averaging

2015

We present a new class of statistical error reduction techniques for Monte-Carlo simulations. Using covariant symmetries, we show that correlation functions can be constructed from inexpensive approximations without introducing any systematic bias in the final result. We introduce a new class of covariant approximation averaging techniques, known as all-mode averaging (AMA), in which the approximation takes account of contributions of all eigenmodes through the inverse of the Dirac operator computed from the conjugate gradient method with a relaxed stopping condition. In this paper we compare the performance and computational cost of our new method with traditional methods using correlation…

PhysicsNuclear and High Energy PhysicsHigh Energy Physics::LatticeMonte Carlo methodLattice field theoryHigh Energy Physics - Lattice (hep-lat)FOS: Physical sciencesLattice QCDDirac operatorsymbols.namesakeHigh Energy Physics - LatticeConjugate gradient methodLattice gauge theoryQuantum mechanicssymbolsCovariant transformationVector mesonMathematical physics
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In-beam spectroscopic studies of shape coexistence and collectivity in the neutron-deficientZ≈ 82 nuclei

2016

In the present paper we focus on studies of shape coexistence in even-mass nuclei in the neutron-deficient Pb region. They are based on experiments carried out using tagging techniques in the Accelerator Laboratory of the University of Jyväskylä, Finland. Excited states in many of these nuclei can only be accessed via fusion-evaporation reactions employing high-intensity stable-ion beams. The key features in these experiments are high selectivity, clean spectra and instrumentation that enables high count rates. We review three spectroscopic highlights in this region. peerReviewed

PhysicsNuclear and High Energy Physicsquadrupole momentrecoil distance Doppler-shift method010308 nuclear & particles physicsHigh selectivitydeformationshape coexistenceKey features01 natural sciencesSpectral lineNuclear physicsJUROGAMydinreaktiotExcited state0103 physical sciencesNeutronin-beam γ-ray spectroscopyAtomic physicsNuclear Experiment010306 general physicsBeam (structure)Journal of Physics G: Nuclear and Particle Physics
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Calibration of a neutron time-of-flight multidetector system for an intensity interferometry experiment

2004

We present the details of an experiment on light particle interferometry. In particular, we focus on a time-of-flight technique which uses a cyclotron RF signal as a start and a liquid scintillator time signal as a stop, to measure neutron energy in the range of En approximate to 1.8-150 MeV. This dynamic range (up to 300 ns) is much larger than the beam bunch separation (54 ns) of the AGOR cyclotron (KVI). However, the problem of a short burst period is overcome by using the time information obtained from a fast projectile fragment phoswich detector. The complete analysis procedure to extract the final neutron kinetic energy spectra, is discussed. (C) 2003 Elsevier B.V. All rights reserved.

PhysicsNuclear and High Energy Physicstime-of-flight methodCyclotronScintillatorcalibrationneutron detectionNeutron temperaturelaw.inventionNuclear physicsInterferometryTime of flightSCINTILLATORlawPhoswich detectorNeutron detectionNeutronNuclear ExperimentDETECTION EFFICIENCYInstrumentationliquid scintillatorNuclear instruments & methods in physics research section a-Accelerators spectrometers detectors and associated equipment
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A computational magnetohydrodynamic model of a marine propulsion system

2016

In this article we present an approach to the description of Magnetohydrodynamic Propulsion. Preliminarly, an analytical model which includes an electromagnetic model and a thermal model is presented. Successively, in order to move beyond the analytical model, a 3-D MHD modeling tool and a Runge Kutta method based solver are presented and they are used to investigate an alternative MHD solutions. Some numerical analysis are given.

PhysicsNumerical analysisMechanicsSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciSolverPropulsionOceanographyFinite element methodMagnetohydrodinamic Propulsion SystemRunge–Kutta methodsSettore ING-INF/04 - AutomaticaPhysics::Plasma PhysicsMarine propulsionAutomotive EngineeringPhysics::Space PhysicsMagnetohydrodynamic driveMagnetohydrodynamicsOCEANS 2016 - Shanghai
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A direct method to find solutions of some type of coupled Korteweg-de Vries equations using hyperelliptic functions of genus two

2008

Abstract We suggest how one can obtain exact solutions of some type of coupled Korteweg–de Vries equations by means of hyperelliptic functions of genus two.

PhysicsPure mathematicsPartial differential equationDirect methodMathematics::Analysis of PDEsGeneral Physics and AstronomyType (model theory)Nonlinear systemMathematics::Algebraic GeometryNonlinear Sciences::Exactly Solvable and Integrable SystemsGenus (mathematics)Nonlinear Sciences::Pattern Formation and SolitonsHyperelliptic curveComputer Science::Databases
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STOCHASTIC ANALYSIS OF ONE-DIMENSIONAL HETEROGENEOUS SOLIDS WITH LONG-RANGE INTERACTIONS

2011

Random mass distribution in one-dimensional (1D) elastic solids in the presence of long-range interactions is studied in this paper. Besides the local Cauchy contact forces among adjacent elements, long-range forces depending on the product of interacting masses, as well as on their relative displacements, are considered. In this context, the random fluctuations of the mass distribution involve a stochastic model of the nonlocal interactions, and the random displacement field of the body is provided as the solution of a stochastic integro-differential equation. The presence of the random field of mass distribution is reflected in the random kernel of the solving integro-differential equatio…

PhysicsRange (mathematics)FINITE-ELEMENT-METHODComputer Networks and CommunicationsControl and Systems EngineeringStochastic processLinear elasticityComputational MechanicsLINEAR ELASTICITYStatistical physicsUNCERTAIN PARAMETERSSettore ICAR/08 - Scienza Delle CostruzioniFinite element methodInternational Journal for Multiscale Computational Engineering
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An extended Ritz formulation for buckling and post-buckling analysis of cracked multilayered plates

2018

Abstract An extended Ritz formulation for the analysis of buckling and post-buckling behaviour of cracked composite multilayered plates is presented. The formulation is based on: (i) the First-order Shear Deformation Theory to model the mechanics of the multilayered plate; (ii) the von Karman’s theory to account for geometric non-linearities ; (iii) the use of an extended set of approximating functions able to model the presence of an embedded or edge crack and to capture the crack opening fields as well as the global behaviour within a single cracked domain. The numerical results of the buckling analyses and the equilibrium paths in the post-buckling regime are compared with the results fr…

PhysicsShear deformation theoryComposite numberMathematical analysisCeramics and Composite02 engineering and technologyPlate post-bucklingEdge (geometry)01 natural sciencesDomain (mathematical analysis)Finite element method010101 applied mathematics020303 mechanical engineering & transports0203 mechanical engineeringBucklingExtended Rayleigh-Ritz methodPlate bucklingCeramics and CompositesFirst-order shear deformation theory0101 mathematicsSettore ING-IND/04 - Costruzioni E Strutture AerospazialiCivil and Structural EngineeringComposite Structures
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A numerical study of postshock oscillations in slowly moving shock waves

2003

Abstract Godunov-type methods and other shock capturing schemes can display pathological behavior in certain flow situations. This paper discusses the numerical anomaly associated to slowly moving shocks. We present a series of numerical experiments that illustrate the formation and propagation of this pathology, and allows us to establish some conclusions and question some previous conjectures for the source of the numerical noise. A simple diagnosis on an explicit Steger-Warming scheme shows that some intermediate states in the first time steps deviate from the true direction and contaminate the flow structure. A remedy is presented in the form of a new flux split method with an entropy i…

PhysicsShock capturing schemesSlowly moving shocksMechanicsMoving shockFlux split methodsComputational MathematicsNonlinear systems of conservation lawsNumerical noiseComputational Theory and MathematicsModeling and SimulationModelling and SimulationCompressible flowsEntropy (energy dispersal)Computers & Mathematics with Applications
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Analysis of Cylindrical Dielectric Resonators in Rectangular Cavities Using a State-Space Integral-Equation Method

2006

In this letter, a state-space integral-equation method in the s-domain has been employed for the accurate analysis of rectangular cavities loaded with cylindrical dielectric resonators. The dielectric obstacles have been treated in terms of their polarization equivalent charge and current densities. The dielectric resonator can be placed at any arbitrary position inside the cavity. The presented technique allows to calculate in a very efficient way a large number of solenoidal modes. The resonant frequencies of dielectric-loaded cavities are calculated and compared with data from literature and a commercial finite element method software, showing a good agreement

PhysicsSolenoidal vector fieldbusiness.industryNumerical analysisPhysics::OpticsCharge densityDielectricDielectric resonatorCondensed Matter PhysicsIntegral equationFinite element methodComputational physicsResonatorOpticsElectrical and Electronic EngineeringbusinessIEEE Microwave and Wireless Components Letters
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