Search results for "Moving"

showing 10 items of 182 documents

Optomechanical to mechanical entanglement transformation

2008

We present a scheme for generating entanglement between two mechanical oscillators that have never interacted with each other by using an entanglement-swapping protocol. The system under study consists of a Michelson-Morley interferometer comprising mechanical systems embodied by two cantilevers. Each of them is coupled to a field mode via the radiation pressure mechanism. Entanglement between the two mechanical systems is set by measuring the output modes of the interferometer. We also propose a control mechanism for the amount of entanglement based on path-length difference between the two arms. © IOP Publishing Ltd and Deutsche Physikalische Gesellschaft.

PhysicsCantileverField (physics)General Physics and AstronomyQuantum PhysicsQuantum entanglementMOVING MIRRORMICROMIRRORoptomechanical syetems quantum optics quantum information theoryMOVABLE MIRRORSMechanism (engineering)Mechanical systemInterferometryTransformation (function)Classical mechanicsRadiation pressureQuantum mechanicsRADIATION-PRESSURECAVITYNew Journal of Physics
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Thermal field theories and shifted boundary Conditions

2014

The analytic continuation to an imaginary velocity of the canonical partition function of a thermal system expressed in a moving frame has a natural implementation in the Euclidean path-integral formulation in terms of shifted boundary conditions. The Poincare' invariance underlying a relativistic theory implies a dependence of the free-energy on the compact length L_0 and the shift xi only through the combination beta=L_0(1+xi^2)^(1/2). This in turn implies that the energy and the momentum distributions of the thermal theory are related, a fact which is encoded in a set of Ward identities among the correlators of the energy-momentum tensor. The latter have interesting applications in latti…

PhysicsField (physics)Analytic continuationLattice field theoryHigh Energy Physics - Lattice (hep-lat)FOS: Physical sciencesThermodynamic potentialMomentumFIS/02 - FISICA TEORICA MODELLI E METODI MATEMATICIHigh Energy Physics - LatticeMoving frameQuantum mechanicsBoundary value problemTensorMathematical physics
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Test of relativistic time dilation with fast optical atomic clocks at different velocities

2007

Time dilation is one of the most fascinating aspects of special relativity as it abolishes the notion of absolute time. It was first observed experimentally by Ives and Stilwell in 1938 using the Doppler effect. Here we report on a method, based on fast optical atomic clocks with large, but different Lorentz boosts, that tests relativistic time dilation with unprecedented precision. The approach combines ion storage and cooling with optical frequency counting using a frequency comb. 7Li+ ions are prepared at 6.4% and 3.0% of the speed of light in a storage ring, and their time is read with an accuracy of 2×10−10 using laser saturation spectroscopy. The comparison of the Doppler shifts yield…

PhysicsKennedy–Thorndike experimentQuantum mechanicsOne-way speed of lightIves–Stilwell experimentTime dilation of moving particlesGeneral Physics and AstronomySpeed of lightTime dilationRelativistic Doppler effectAtomic clockComputational physicsNature Physics
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Test of Time Dilation Using StoredLi+Ions as Clocks at Relativistic Speed

2014

We present the concluding result from an Ives-Stilwell-type time dilation experiment using 7Li+ ions confined at a velocity of β=v/c=0.338 in the storage ring ESR at Darmstadt. A Λ-type three-level system within the hyperfine structure of the 7Li+3S1 →3P2 line is driven by two laser beams aligned parallel and antiparallel relative to the ion beam. The lasers' Doppler shifted frequencies required for resonance are measured with an accuracy of <4×10(-9) using optical-optical double resonance spectroscopy. This allows us to verify the special relativity relation between the time dilation factor γ and the velocity β, γ√1-β2=1 to within ±2.3×10(-9) at this velocity. The result, which is singled …

PhysicsKennedy–Thorndike experimentQuantum mechanicsTime dilation of moving particlesIves–Stilwell experimentGeneral Physics and AstronomyResonanceTime dilationLorentz covarianceAtomic physicsRelativistic Doppler effectRelativistic speedPhysical Review Letters
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Applying the relativistic quantization condition to a three-particle bound state in a periodic box

2017

Using our recently developed relativistic three-particle quantization condition, we study the finite-volume energy shift of a spin-zero three-particle bound state. We reproduce the result obtained using non-relativistic quantum mechanics by Meissner, Rios and Rusetsky, and generalize the result to a moving frame.

PhysicsNuclear Theory010308 nuclear & particles physicsHigh Energy Physics - Lattice (hep-lat)FOS: Physical sciences01 natural sciencesNuclear Theory (nucl-th)Quantization (physics)High Energy Physics - LatticeMoving frameQuantum mechanics0103 physical sciencesBound stateEnergy shift010306 general physicsPhysical Review D
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Strategy to find the two $\Lambda(1405)$ states from lattice QCD simulations

2012

Theoretical studies within the chiral unitary approach, and recent experiments, have provided evidence of the existence of two isoscalar states in the region of the $\Lambda(1405)$. In this paper we use the same chiral approach to generate energy levels in a finite box. In a second step, assuming that these energies correspond to lattice QCD results, we devise the best strategy of analysis to obtain the two states in the infinite volume case, with sufficient precision to distinguish them. We find out that using energy levels obtained with asymmetric boxes and/or with a moving frame, with reasonable errors in the energies, one has a successful scheme to get the two $\Lambda(1405)$ poles.

PhysicsNuclear and High Energy PhysicsParticle physicsUnitarityIsoscalarFísicaLattice QCDLambdaUnitary stateHigh Energy Physics - PhenomenologyHigh Energy Physics - LatticeMoving frameEnergy (signal processing)S-matrix
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Dynamics of a particle confined in a two-dimensional dilating and deforming domain

2014

Some recent results concerning a particle confined in a one-dimensional box with moving walls are briefly reviewed. By exploiting the same techniques used for the 1D problem, we investigate the behavior of a quantum particle confined in a two-dimensional box (a 2D billiard) whose walls are moving, by recasting the relevant mathematical problem with moving boundaries in the form of a problem with fixed boundaries and time-dependent Hamiltonian. Changes of the shape of the box are shown to be important, as it clearly emerges from the comparison between the "pantographic", case (same shape of the box through all the process) and the case with deformation.

PhysicsQuantum particleQuantum PhysicsMathematical problemSettore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciFOS: Physical sciencesCondensed Matter PhysicsAtomic and Molecular Physics and OpticsSettore FIS/03 - Fisica Della Materiasymbols.namesakeClassical mechanicssymbolsBoundary Conditions Moving Boundaries Time-dependent HamiltoniansDynamical billiardsHamiltonian (quantum mechanics)Quantum Physics (quant-ph)Mathematical Physics
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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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Identification of Bending Modes of Vibration in Rails by a Laser Doppler Vibrometer on a Moving Platform

2020

This paper introduces a method to identify the bending modes of vibration of railway tracks by using a laser Doppler vibrometer (LDV) mounted on a moving platform. Two sets of experiments were conducted at Transportation Technology Center Inc. (TTCI) in Pueblo Colorado, in order to validate the proposed method. First, the bending vibration modes were identified using the signals collected from a rail span (rail section between two consecutive sleepers) by accelerometers under moving car excitation. Then, vibration measurements from rail spans were obtained by using an LDV mounted on the moving railcar. All tests were carried out at four different rail car speeds: 8 km/h (5 mph), 16 km/h (10…

PhysicsSleeper passing frequencyRailMechanical EngineeringAcoustics02 engineering and technologyBendingTransportation technologySpan (engineering)Accelerometer01 natural sciencesSignal010309 opticsVibration020303 mechanical engineering & transports0203 mechanical engineeringMechanics of MaterialsNormal modeMoving laser Doppler vibrometer0103 physical sciencesVibration modesSystem identificationSettore ICAR/08 - Scienza Delle CostruzioniLaser Doppler vibrometer
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Relativistic simulations of superluminal sources

1997

Abstract We present numerical simulations of the radio emission from hydrodynamical relativistic jets. The quiescent-state jet emission consists of quasi-periodic knots of high emission, associated with internal recollimation shocks. Superluminal components can be reproduced by introducing a square-wave perturbation in the injection velocity of the jet. Strong interactions of the resulting moving shock and the standing recollimations result in a “drag” and increase in emission of the latter.

PhysicsSuperluminal motionAstrophysical jetDragAstrophysics::High Energy Astrophysical PhenomenaQuantum electrodynamicsPerturbation (astronomy)Astronomy and AstrophysicsAstrophysics::Cosmology and Extragalactic AstrophysicsAstrophysicsAstrophysics::Galaxy AstrophysicsMoving shockVistas in Astronomy
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