Search results for "Dispersion."

showing 10 items of 1094 documents

Polychromatic Cherenkov radiation and supercontinuum in tapered optical fibers

2012

We numerically demonstrate that bright solitons in tapered optical fibers can emit polychromatic Cherenkov radiation providing they remain spectrally close to the zero dispersion wavelength during propagation along the fiber. The prime role in this phenomenon is played by the soliton self-frequency shift driving efficiency of the radiation and tuning of its frequency. Depending on tapering and input pulse power, the radiation is emitted either as a train of pulses at different frequencies or as a single temporally broad and strongly chirped pulse.

PhysicsOptical fiberbusiness.industryPhysics::OpticsStatistical and Nonlinear PhysicsRadiationAtomic and Molecular Physics and Opticslaw.inventionSupercontinuumPulse (physics)Zero-dispersion wavelengthOpticsRadiation pressurelawPulse compressionOptoelectronicsbusinessCherenkov radiationJournal of the Optical Society of America B
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Multi-peak-spectra generation with Cherenkov radiation in a non-uniform single mode fiber

2014

We propose, by means of numerical simulations, a simple method to design a non-uniform standard single mode fiber to generate spectral broadening in the form of "ad-hoc" chosen peaks from dispersive waves. The controlled multi-peak generation is possible by an on/off switch of Cherenkov radiation, achieved by tailoring the fiber dispersion when decreasing the cladding diameter by segments. The interplay between the fiber dispersion and the soliton self-frequency shift results in discrete peaks of efficiently emitted Cherenkov radiation from low order solitons, despite the small amount of energy contained in a pulse. These spectra are useful for applications that demand low power bell-shaped…

PhysicsOptical fiberbusiness.industrySingle-mode optical fiberCladding (fiber optics)Atomic and Molecular Physics and Opticslaw.inventionWavelengthOpticslawOptoelectronicsDispersion-shifted fiberbusinessCherenkov radiationDoppler broadeningPhotonic-crystal fiberOptics Express
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Optimization of wavelength division multiplexing in N×160Gbit/s terrestrial transmission systems

2005

Abstract We analyze, from an engineering viewpoint, the prospects of an exploitable upgrade of terrestrial fiber systems based on standard monomode fiber and dispersion compensating units, for future N  × 160 Gbit/s transmission systems. We show that dispersion swing, average dispersion and input pulse power are the key parameters that govern the system performances. We show that whenever the dispersion swing is arranged in a symmetrical setup and the compensation ratio is optimized accordingly, one may obtain a significant improvement of the transmission performances.

PhysicsOptical fiberbusiness.industrySingle-mode optical fiberTransmission systemAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materialslaw.inventionOpticsTransmission (telecommunications)lawWavelength-division multiplexingDispersion (optics)Dispersion-shifted fiberElectrical and Electronic EngineeringPhysical and Theoretical ChemistrybusinessSelf-phase modulationOptics Communications
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Rogue wave statistics from a noise-like-pulse laser

2014

We report on experimental conditions in a fiber ring laser where noise-like pulse emission fulfills the rogue wave criteria. We highlight the role of dispersion, and use the dispersive Fourier-transform method to study spectral fluctuations.

PhysicsOpticsMode-lockingbusiness.industryFiber laserDispersion (optics)Physics::OpticsRing laserRogue wavebusinessNoise (radio)Bandwidth-limited pulsePulse (physics)Advanced Photonics
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All-optical simultaneous polarization attraction and intensity regeneration of a 40-Gbit/s RZ signal

2011

We experimentally report the dual all-optical instantaneous regeneration of both the state of polarization and the intensity profile of a 40 Gbit/s Return-to-Zero telecommunication signal by means of a unique segment fiber.

PhysicsOpticsMulti-mode optical fiberbusiness.industryPolarization mode dispersionWavelength-division multiplexingSingle-mode optical fiberDispersion-shifted fiberPolarization-maintaining optical fiberbusinessGraded-index fiberPhotonic-crystal fiber37th European Conference and Exposition on Optical Communications
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Hot-cavity spectroscopy of dark pulse Kerr combs in microresonators

2019

Kerr frequency combs are generated through cascaded four-wave mixing in high-Q microresonators [1]. These devices are pumped with a continuous-wave laser and modulational instability (MI) is responsible for the growth of the initial comb lines. Since it is easier to satisfy the MI phase matching condition in the anomalous dispersion regime, most studies on Kerr combs have focused on anomalous dispersion microresonators. However, coherent microresonator combs can also take place in the normal dispersion regime. In these combs, phase matching is attained with the aid of the mode coupling between transverse modes of the microresonator [2]. One particularly interesting comb state that operates …

PhysicsOther Electrical Engineering Electronic Engineering Information EngineeringOther Physics Topicsbusiness.industryAtom and Molecular Physics and OpticsNear-infrared spectroscopyResonancePhysics::Optics02 engineering and technologyLaser pumping021001 nanoscience & nanotechnologyLaser01 natural scienceslaw.inventionPulse (physics)010309 opticsModulational instabilityOpticslawModulation0103 physical sciencesDispersion (optics)0210 nano-technologybusiness
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Triply resonant coherent four-wave mixing in silicon nitride microresonators

2015

The generation of multiple tones using four-wave mixing (FWM) has been exploited for many applications, ranging from wavelength conversion to frequency comb generation. FWM is a coherent process, meaning that its dynamics strongly depends on the relative phase among the waves involved. The coherent nature of FWM has been exploited for phase-sensitive processing in different waveguide structures, but it has never been studied in integrated microresonators. Waveguides arranged in a resonant way allow for an effective increase in the wavelength conversion efficiency (at the expense of a reduction in the operational bandwidth). In this letter, we show that phase shaping of a three-wave pump pro…

PhysicsOther Electrical Engineering Electronic Engineering Information Engineeringbusiness.industryAtom and Molecular Physics and OpticsBandwidth (signal processing)Physics::OpticsÒpticaAtomic and Molecular Physics and Opticslaw.inventionResonatorchemistry.chemical_compoundFour-wave mixingFrequency combOpticsSilicon nitridechemistryCoherent controllawDispersion (optics)TelecommunicationsNano TechnologybusinessWaveguide
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Singlet ground state magnetism: II. magnetic excitons in paramagnetic TbP

1979

The magneticΓ 1 –Γ 4 exciton of the singlet ground state system TbP has been studied by inelastic neutron scattering above the antiferromagnetic ordering temperature. Considerable dispersion and a pronounced splitting was found in the [100] and [110] directions. Both the band width and the splitting increased rapidly as the transition temperature was approached in accordance with the predictions of the RPA-theory. The dispersion is analysed in terms of a phenomenological model using interactions up to the fourth nearest neighbour.

PhysicsParamagnetismCondensed matter physicsMagnetismTransition temperatureExcitonPhenomenological modelAntiferromagnetismCondensed Matter PhysicsDispersion (chemistry)Inelastic neutron scatteringElectronic Optical and Magnetic MaterialsZeitschrift f�r Physik B Condensed Matter and Quanta
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Exact dark soliton solutions for a family ofNcoupled nonlinear Schrödinger equations in optical fiber media

2001

We consider a family of N coupled nonlinear Schr\"odinger equations which govern the simultaneous propagation of N fields in the normal dispersion regime of an optical fiber with various important physical effects. The linear eigenvalue problem associated with the integrable form of all the equations is constructed with the help of the Ablowitz-Kaup-Newell-Segur method. Using the Hirota bilinear method, exact dark soliton solutions are explicitly derived.

PhysicsPartial differential equationMathematical analysisSchrödinger equationNonlinear systemDissipative solitonsymbols.namesakeNonlinear Sciences::Exactly Solvable and Integrable SystemsDispersion (optics)symbolsPeregrine solitonSolitonNonlinear Sciences::Pattern Formation and SolitonsEigenvalues and eigenvectorsMathematical physicsPhysical Review E
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Vector correlator and scale determination in lattice QCD

2013

We implement a proposal made in [arXiv:1107.4388] to determine the lattice spacing by matching the lattice vector correlator at a reference distance scale with the same correlator obtained by a dispersion relation based on the $R$-ratio determined experimentally. We work with the isovector current, requiring a separation of the isovector hadronic final states on the phenomenological side. We also discuss the finite-size effect on the correlator, which must be controlled in order for the method to be applicable.

PhysicsParticle physicsIsovectorHigh Energy Physics::LatticeHigh Energy Physics - Lattice (hep-lat)Lattice field theoryHadronNuclear TheoryFOS: Physical sciencesLattice QCDHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)Lattice constantHigh Energy Physics - LatticeLattice (order)Dispersion relationQuantum electrodynamicsLattice model (physics)
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