Search results for "Dispersion."

showing 10 items of 1094 documents

The role of charged exotic states in e+e− → ψ(2S) π+π−

2019

Abstract In this work, we use the dispersion theory to provide a physical description of recent BESIII data on the reaction e + e − → ψ ( 2 S ) π + π − . Taking into account explicitly the effects of charged exotic intermediate states in the t- and u-channels as well as the two-pion final state interaction, we describe the invariant mass distribution for four different e + e − center-of-mass energies. The effects of the ππ rescattering are accounted for in a single channel Omnes approach which is found to explain the ππ-invariant mass distributions at all e + e − center-of-mass energies. For q = 4.226 GeV and q = 4.258 GeV the already established charged exotic state Z c ( 3900 ) is conside…

PhysicsNuclear and High Energy PhysicsWork (thermodynamics)010308 nuclear & particles physicsDispersion theoryState (functional analysis)01 natural scienceslcsh:QC1-999Nuclear physicsPionDistribution (mathematics)0103 physical sciencesIntermediate stateInvariant mass010306 general physicsDispersion (chemistry)Nuclear Experimentlcsh:PhysicsPhysics Letters B
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Relativistic Wigner function approach to neutrino propagation in matter

1999

In this work we study the propagation of massive Dirac neutrinos in matter with flavor mixing, using statistical techniques based on Relativistic Wigner Functions. First, we consider neutrinos in equilibrium within the Hartree approximation, and obtain the corresponding relativistic dispersion relations and effective masses. After this, we analyze the same system out of equilibrium. We verify that, under the appropiate physical conditions, the well known equations for the MSW effect are recovered. The techniques we used here appear as an alternative to describe neutrino properties and transport equations in a consistent way.

PhysicsNuclear and High Energy PhysicsWork (thermodynamics)Solar neutrinoAstrophysics (astro-ph)High Energy Physics::PhenomenologyDirac (software)FOS: Physical sciencesHartreeAstrophysicsHigh Energy Physics - PhenomenologyTheoretical physicsHigh Energy Physics - Phenomenology (hep-ph)Dispersion relationQuantum electrodynamicsWigner distribution functionFísica nuclearNeutrinoMixing (physics)Physical Review D
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Dispersion relations of wave modes in helium II layers

1973

Dispersion relations of (sound-like) wave modes, which can exist in a helium II layer of arbitrary width, are calculated numerically. The basis of our considerations is the complete system of the linearized Landau-Khalamikov equations, in which only the dissipative processes involved with η and ζ2 are taken into account. Apart from the linearization, no approximation or averaging is performed. The thermal expansion of helium II is taken into account. Symmetry properties of the velocities of flow, usually required, are dropped here. A hint is given as to how all the Khalatnikov coefficients may be measured by sound absorption experiments.

PhysicsNuclear and High Energy Physicschemistry.chemical_elementMechanicsSymmetry (physics)Thermal expansionClassical mechanicsFlow (mathematics)chemistryLinearizationDispersion relationDissipative systemNuclear fusionHeliumZeitschrift für Physik A Hadrons and nuclei
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Continuum generation by dark solitons

2009

We demonstrate that the dark soliton trains in optical fibers with a zero of the group velocity dispersion can generate broad spectral distribution (continuum) associated with the resonant dispersive radiation emitted by solitons. This radiation is either enhanced or suppressed by the Raman scattering depending on the sign of the third order dispersion.

PhysicsOptical fiberContinuum (measurement)Spectral power distributionFOS: Physical sciencesRadiationAtomic and Molecular Physics and Opticslaw.inventionsymbols.namesakelawsymbolsSolitonAtomic physicsThird order dispersionGroup velocity dispersionRaman scatteringOptics (physics.optics)Physics - OpticsOptics Letters
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Solitons in Optical Fibers

1996

In the near future nonlinear optics should probably revolutionize the world of telecommunications and computer technologies. With lasers producing highintensity and short-duration optical pulses, it is now possible to probe the interesting, and potentially useful, nonlinear effects in optical systems and waveguides. Among the guiding structures, the optical fiber is an interesting (Gloge 1979) and important device (Mollenauer and Stolen 1982; Doran and Blow 1983). In an optical transmission system using linear pulses, the bit rate of transmission is limited by the dispersive character of the material, which causes the pulse to spread out an eventually overlap to such an extend that all the …

PhysicsOptical fiberKerr effectbusiness.industryPhysics::OpticsNonlinear opticslaw.inventionPulse (physics)Modulational instabilityOpticslawDispersion (optics)SolitonbusinessRefractive index
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An exact soliton solution for an averaged dispersion-managed fibre system equation

2001

We consider the nonlinear wave propagation in an averaged dispersion-managed (DM) fibre system. We present the explicit Lax pair with a variable spectral parameter and derive the exact soliton solution using the Backlund transformation. A similar study is also carried out for simultaneous propagation of N nonlinear pulses in the averaged DM fibre system.

PhysicsOptical fiberMathematical analysisGeneral Physics and AstronomyStatistical and Nonlinear Physicslaw.inventionNonlinear systemNonlinear Sciences::Exactly Solvable and Integrable SystemsTransformation (function)lawLax pairDispersion managedSolitonReduction (mathematics)Mathematical PhysicsVariable (mathematics)Journal of Physics A: Mathematical and General
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A universal all-fiber Omnipolarizer

2014

We report the experimental observation of self-polarization of light in optical fibers through a counter-propagating four-wave mixing between an incident signal and its backward replica. An efficient self-polarization of a 40-Gbit/s signal is demonstrated.

PhysicsOptical fiberMulti-mode optical fiberbusiness.industrySingle-mode optical fiberPhysics::OpticsPolarization-maintaining optical fiberGraded-index fiberlaw.inventionOpticslawOptoelectronicsDispersion-shifted fiberbusinessPlastic optical fiberPhotonic-crystal fiber
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Suppression of sideband frequency shifts in the modulational instability spectra of wave propagation in optical fiber systems

2007

International audience; In standard optical fibers with constant chromatic dispersion, modulational instability (MI) sidebands execute undesirable frequency shifts due to fiber losses. By means of a technique based on average-dispersion decreasing dispersion-managed fibers, we achieve both complete suppression of the sideband frequency shifts and fine control of the MI frequencies, without any compromise in the MI power gain.

PhysicsOptical fiberSidebandWave propagationbusiness.industryNonlinear optics01 natural sciencesAtomic and Molecular Physics and Opticslaw.invention[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry010309 opticsModulational instabilityFour-wave mixingOpticslaw[ CHIM.THEO ] Chemical Sciences/Theoretical and/or physical chemistry0103 physical sciencesDispersion (optics)190.4370 190.4410 190.4380Fiber010306 general physicsbusinessOptics Letters
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Existence and dynamics of pairs of temporal cavity solitons weakly-bound through kelly sidebands in a passive optical fiber resonator

2015

We report experimental observations of weaklybound states of temporal cavity solitons, with separations of 10 soliton widths and beyond, in a 100-m single mode fiber cavity. Bound state dynamics has been studied using the real time dispersive Fourier transform technique for roundtrip-byroundtrip measurements. Temporal oscillations in the cavity soliton background, associated with the presence of Kelly sidebands, have been identified as the binding mechanism.

PhysicsOptical fiberSingle-mode optical fiberPhysics::Opticslaw.inventionAmplitude modulationsymbols.namesakeResonatorFourier transformlawQuantum mechanicsBound stateDispersion (optics)symbolsPhysics::Accelerator PhysicsSolitonAtomic physicsNonlinear Sciences::Pattern Formation and Solitons2015 Spatiotemporal Complexity in Nonlinear Optics (SCNO)
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Observation of modulational instability induced by velocity-matched cross-phase modulation in a normally dispersive bimodal fiber

2008

We demonstrate experimentally the existence of cross-phase-modulation-induced modulational instability in the absence of group-velocity mismatch between the interacting nonlinear dispersive waves. The experiment is performed by means of a normally dispersive isotropic bimodal fiber. The group-velocity mismatch between the fundamental and the first-order modes that constitute the two interacting waves is controlled by wavelength tuning. A strong power dependence of the modulational instability spectra is observed near the condition of group-velocity matching.

PhysicsOptical fiberWave propagationbusiness.industryCross-phase modulationIsotropyAtomic and Molecular Physics and Opticslaw.inventionModulational instabilityWavelengthsymbols.namesakeOpticslawsymbolsDispersion (water waves)businessRaman scatteringOptics Letters
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