Search results for "Dispersion."

showing 10 items of 1094 documents

Inelastic scattering and interactions of three-wave parametric solitons.

2006

We study the interactions of velocity-locked three-wave parametric solitons in a medium with quadratic nonlinearity and dispersion. We reveal that the inelastic scattering between three-wave solitons and linear waves may be described in terms of analytical solutions with dynamically varying group velocity, or boomerons. Moreover, we demonstrate the elastic nature of three-wave soliton-soliton collisions and interactions.

PhysicsClassical mechanicsNonlinear Sciences::Exactly Solvable and Integrable SystemsQuantum electrodynamicsQuadratic nonlinearityDispersion (optics)Group velocityFOS: Physical sciencesInelastic scatteringNonlinear Sciences::Pattern Formation and SolitonsPhysics - OpticsParametric statisticsOptics (physics.optics)Physical review. E, Statistical, nonlinear, and soft matter physics
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2018

In this manuscript, we experimentally and numerically investigate the chaotic dynamics of the state-of-polarization in a nonlinear optical fiber due to the cross-interaction between an incident signal and its intense backward replica generated at the fiber-end through an amplified reflective delayed loop. Thanks to the cross-polarization interaction between the two-delayed counter-propagating waves, the output polarization exhibits fast temporal chaotic dynamics, which enable a powerful scrambling process with moving speeds up to 600-krad/s. The performance of this all-optical scrambler was then evaluated on a 10-Gbit/s On/Off Keying telecom signal achieving an error-free transmission. We a…

PhysicsComputer simulationbusiness.industryRandom number generationChaoticFeedback loopPolarization (waves)01 natural sciencesAtomic and Molecular Physics and OpticsScrambler010309 opticsNonlinear systemOpticsPolarization mode dispersion0103 physical sciences010306 general physicsbusinessOptics Express
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Optical phonon modes of wurtzite InP

2013

Optical vibration modes of InP nanowires in the wurtzite phase were investigated by Raman scattering spectroscopy. The wires were grown along the [0001] axis by the vapor-liquid-solid method. The A1(TO), E2h, and E1(TO) phonon modes of the wurtzite symmetry were identified by using light linearly polarized along different directions in backscattering configuration. Additionally, forbidden longitudinal optical modes have also been observed. Furthermore, by applying an extended 11-parameter rigid-ion model, the complete dispersion relations of InP in the wurtzite phase have been calculated, showing a good agreement with the Raman experimental data.

PhysicsCondensed Matter - Materials ScienceNanoestructuresCondensed Matter - Mesoscale and Nanoscale PhysicsPhysics and Astronomy (miscellaneous)Condensed matter physicsLinear polarizationPhononPhase (waves)NanowireMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesCiència dels materialsCondensed Matter::Mesoscopic Systems and Quantum Hall EffectEspectroscòpia RamanCondensed Matter::Materials Sciencesymbols.namesakeNormal modeDispersion relationMesoscale and Nanoscale Physics (cond-mat.mes-hall)symbolsRaman spectroscopyWurtzite crystal structureApplied Physics Letters
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The band structure of double excited states for a linear chain

2000

Abstract The energy band structure in the case of double excited states of finite spin systems (s= 1 2 ) has been investigated. A geometrical construction based on the Bethe Ansatz method for determining eigenstates has been proposed. The formula for energy spectrum in the center and at the border of Brillouin zone has been obtained. Classification of energy bands has been elaborated on and approximated dispersion law for bounded states given. Some problems with application of the Bethe Ansatz in the case of finite system has been pointed out.

PhysicsCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsBethe ansatzBrillouin zoneQuantum mechanicsBounded functionExcited stateQuantum electrodynamicsDispersion relationElectrical and Electronic EngineeringElectronic band structureEigenvalues and eigenvectorsSpin-½Physica B: Condensed Matter
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Vacuum field correlations and three-body Casimir-Polder potential with one excited atom

2004

The three-body Casimir-Polder potential between one excited and two ground-state atoms is evaluated. A physical model based on the dressed field correlations of vacuum fluctuations is used, generalizing a model previously introduced for three ground-state atoms. Although the three-body potential with one excited atom is already known in the literature, our model gives new insights on the nature of non-additive Casimir-Polder forces with one or more excited atoms.

PhysicsCondensed Matter::Quantum GasesQuantum PhysicsField (physics)resonancesdispersion forceFOS: Physical sciencesAtomic and Molecular Physics and OpticsCasimir effectExcited statePhysics::Atomic and Molecular ClustersPhysics::Atomic PhysicsAtomic physicsVacuum fluctuationQuantum Physics (quant-ph)Quantum fluctuation
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Temperature and magnetic field dependent correlations in the singlet ground state system CsFeBr3

1992

The magnetic excitations in CsFeBr3 have been measured with inelastic scattering of cold neutrons to high precision at 80 mK. The fact that the lowest frequency mode softens with decreasing temperature but stabilizes at 0.11 THz below 2.5 K is the indication that CsFeBr3 remains a SGS system forT→0. From dispersion curves measured earlier in a magnetic field along the chain axis experimental intensities were derived and in turn correlation lengths. Correlation lengths were also calculated using the new parameters for exchange and anisotropy. The experimental results and the calculations both show that the correlation lengths increase for increasing magnetic field, flatten off around the pha…

PhysicsCondensed matter physicsCritical phenomenaPhase (waves)Inelastic scatteringNeutron scatteringCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsMagnetic fieldNuclear magnetic resonanceDispersion (optics)General Materials ScienceNeutronAnisotropyZeitschrift f�r Physik B Condensed Matter
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Quasiparticle interference of spin momentum locked surface states at step edges on Re(0001)

2020

Quasiparticle interference patterns formed by a surface state on the Re(0001) surface were investigated using scanning tunneling spectroscopy. The energy dispersion is inferred from Fourier-transformed differential conductivity maps for occupied and unoccupied states. The band dispersion for occupied states agrees with earlier published results obtained by angle-resolved photoemission spectroscopy. An analysis of the phase of interference patterns at step edges reveals a drastic change in the effective energy barrier for backscattering above and below the Fermi level. The attenuation of the interference pattern with increasing distance indicates interband scattering is the dominant scatteri…

PhysicsCondensed matter physicsPhotoemission spectroscopyScatteringAttenuationScanning tunneling spectroscopyFermi level02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencessymbols.namesake0103 physical sciencesQuasiparticlesymbols010306 general physics0210 nano-technologyDispersion (water waves)Surface statesPhysical Review B
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Stability of soliplasmon excitations at metal/dielectric interfaces

2011

We show the stability features of different families of soliplasmon excitations by analyzing their different propagation patterns under random perturbations of the initial profile. The role of phase and dispersive waves is also unveiled.

PhysicsCondensed matter physicsSurface plasmonPhase (waves)DielectricStability (probability)Metalsymbols.namesakeMaxwell's equationsvisual_artDispersion (optics)visual_art.visual_art_mediumsymbolsPolariton2011 International Workshop on Nonlinear Photonics
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A theoretical study on threshold conditions of modulation instability in oppositely directed couplers

2016

We theoretically investigate threshold conditions to observe modulation instability (MI) in a two-core nonlinear oppositely directed coupler (ODC) with a negative-index material (NIM) channel. Using linear stability analysis, we obtain an expression for the instability gain. The analysis shows, with two discrete instability regions, that the band at lower values of f (ratio of the backward to forward-propagating waves amplitude) is a result of the nonlinear positive index material (PIM) channel while the broader range band is a consequence of the nonlinear NIM channel. Both bands are highly sensitive to system parameters. We demonstrate that MI has a threshold-like condition in the normal d…

PhysicsCondensed matter physicsbusiness.industry01 natural sciencesStability (probability)InstabilityAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsPower (physics)010309 opticsNonlinear systemAmplitudeOpticsModulation0103 physical sciencesDispersion (optics)010306 general physicsbusinessCoupling coefficient of resonatorsJournal of Optics
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Vortex solitons in photonic crystal fibers

2003

We demonstrate the existence of vortex soliton solutions in photonic crystal fibers. We analyze the role played by the photonic crystal fiber defect in the generation of optical vortices. An analytical prediction for the angular dependence of the amplitude and phase of the vortex solution based on group theory is also provided. Furthermore, all the analysis is performed in the non-paraxial regime.

PhysicsCondensed matter physicsbusiness.industryPhase (waves)Physics::OpticsFOS: Physical sciencesSoliton (optics)Microstructured optical fiberPattern Formation and Solitons (nlin.PS)Nonlinear Sciences - Pattern Formation and SolitonsAtomic and Molecular Physics and OpticsVortexZero-dispersion wavelengthOpticsCondensed Matter::SuperconductivitybusinessOptical vortexPhotonic crystalPhotonic-crystal fiber
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