Search results for "fiber"

showing 10 items of 2343 documents

Truncated thermalization of incoherent optical waves through supercontinuum generation in photonic crystal fibers

2013

We revisit the process of optical wave thermalization through supercontinuum generation in photonic crystal fibers. We report theoretically and numerically a phenomenon of `truncated thermalization': The incoherent optical wave exhibits an irreversible evolution toward a Rayleigh-Jeans thermodynamic equilibrium state characterized by a compactly supported spectral shape. The theory then reveals the existence of a frequency cut-off which regularizes the ultraviolet catastrophe inherent to ensembles of classical nonlinear waves. This phenomenon sheds new light on the mechanisms underlying the formation of bounded supercontinuum spectra in photonic crystal fibers.

PhysicsSpectral shape analysisbusiness.industryThermodynamic equilibriumComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKSPhysics::Optics01 natural sciencesMolecular physicsAtomic and Molecular Physics and OpticsSpectral lineSupercontinuum010309 optics[MATH.MATH-PR]Mathematics [math]/Probability [math.PR]Nonlinear systemThermalisationOptics0103 physical sciences010306 general physicsbusinessGeneralLiterature_REFERENCE(e.g.dictionariesencyclopediasglossaries)[ MATH.MATH-PR ] Mathematics [math]/Probability [math.PR]ComputingMilieux_MISCELLANEOUSUltraviolet catastrophePhotonic-crystal fiberMathematicsofComputing_DISCRETEMATHEMATICS
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Steady-state emission and stability of a single-mode two-level Fabry-Perot cavity laser

1997

Abstract An analytical steady-state solution for a single-mode homogeneously-broadened two-level Fabry-Perot laser, valid for any field intensity, cavity detuning and level-population decay rates, is obtained. A power-series expansion of this solution allows to perform a linear stability analysis which reveals the existence of two Hopf bifurcations instead of one as in unidirectional ring lasers. These bifurcations delimit the domain of unstable emission of the laser with respect to small perturbations. The instability threshold for hard-mode excitation is higher than in a ring laser, although introduction of a small definite detuning makes them similar. The time-dependent behaviour above t…

PhysicsSteady statebusiness.industrySingle-mode optical fiberPhysics::OpticsRing laserLaserInstabilityAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materialslaw.inventionOpticslawDomain (ring theory)Physics::Atomic PhysicsElectrical and Electronic EngineeringPhysical and Theoretical ChemistrybusinessFabry–Pérot interferometerExcitation
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ROSAT-HRI investigation of the NGC 507 X-ray halo

2002

We present an X-ray investigation of the elliptical galaxy NGC 507. We make use of archival Rosat HRI, PSPC and Chandra data, to connect the large-scale structure of the halo to the core morphology. Our analysis shows that the halo core (r<2-3 r_e) and the external halo (r>3 r_e) are characterised by different dynamical properties and suggests a different origin of the two components. The halo core has a complex morphology with a main X-ray emission peak, coincident with the center of the optical galaxy, and several secondary peaks. The spatial and spectral analysis of the central peak shows that this feature is produced by denser hot gas in the galaxy core. Our data support the scena…

PhysicsStellar massAstrophysics::High Energy Astrophysical PhenomenaAstrophysics (astro-ph)FOS: Physical sciencesAstronomy and AstrophysicsAstrophysicsAstrophysics::Cosmology and Extragalactic AstrophysicsAstrophysicsGalaxyCore (optical fiber)Dark matter haloSpace and Planetary ScienceROSATCluster (physics)Elliptical galaxyHaloAstrophysics::Galaxy Astrophysics
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Velocity locking of incoherent nonlinear wave packets

2006

We show both theoretically and experimentally in an optical fiber system that a set of incoherent nonlinear waves irreversibly evolves to a specific equilibrium state, in which the individual wave packets propagate with identical group velocities. This intriguing process of velocity locking can be explained in detail by simple thermodynamic arguments based on the kinetic wave theory. Accordingly, the selection of the velocity-locked state is shown to result from the natural tendency of the isolated wave system to approach the state that maximizes the nonequilibrium entropy.

PhysicsSum-frequency generationOptical fiberWave packetGeneral Physics and AstronomyNonlinear optics16. Peace & justice01 natural scienceslaw.invention010309 opticsNonlinear systemClassical mechanicsCross-polarized wave generationlaw0103 physical sciencesStimulated emission010306 general physicsComputingMilieux_MISCELLANEOUSCoherence (physics)
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160-GHz picosecond pulse train generation through multiwave mixing compression of a dual frequency beat signal

2002

We report the experimental generation and characterization of a 160-GHz picosecond puise train using multiple four-wave mixing temporal compression of an initial dual frequency beat signal in the anomalous-dispersion regime of a non-zero dispersion shifted fiber.

PhysicsSum-frequency generationbusiness.industryBeat (acoustics)symbols.namesakeFour-wave mixingOpticsBrillouin scatteringPicosecondsymbolsDual frequencyDispersion-shifted fiberbusinessRaman scatteringNonlinear Guided Waves and Their Applications
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Multimode squeezing of frequency combs

2006

We have developed a full multimode theory of a synchronously pumped type-I optical parametric oscillator. We calculate the output quantum fluctuations of the device and find that, in the degenerate case (coincident signal and idler set of frequencies), significant squeezing is obtained when one approaches threshold from below for a set of well-defined ``supermodes,'' or frequency combs, consisting of a coherent linear superposition of signal modes of different frequencies which are resonant in the cavity.

PhysicsSuperposition principleOpticsMulti-mode optical fiberbusiness.industryCoincidentOptical parametric oscillatorPhysics::OpticsbusinessSignalOptical parametric amplifierAtomic and Molecular Physics and OpticsQuantum fluctuationPhysical Review A
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Self‐similar problems for modeling the surface chemical reactions with the gravitation

1998

The mathematical model of a chemical reaction which takes place on the surface of the uniformly moving vertically imbedded glass fibre material is considered. The effect of gravitation is taken into account. Boussinesq's and boundary layer fittings allow to derive boundary value problems for self‐similar systems of ordinary differential equations. First Published Online: 14 Oct 2010

PhysicsSurface (mathematics)Mathematical analysisGlass fiber-Chemical reactionGravitationBoundary layerModeling and SimulationOrdinary differential equationQA1-939Surface chemicalBoundary value problemAnalysisMathematicsMathematical Modelling and Analysis
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Stability of gyrotron operation in very high-order modes

2012

This study was motivated by the desire to increase the power, which can be delivered by gyrotrons in long pulse and continuous regimes. Since the admissible power level is determined by the density of ohmic losses in resonator walls, to increase the radiated power a gyrotron should operate in higher order modes. Using an existing gyrotron developed for plasma experiments in the International Thermonuclear Experimental Reactor as a base model, the stability of operation of such a gyrotron in modes with larger number of radial variations was studied. It is shown that the power level achievable in such gyrotrons in stable single mode regimes is close to 1.5 MW. The power level 1.7–1.8 MW can b…

PhysicsThermonuclear fusionTerahertz radiationAmplifierSingle-mode optical fiberMechanicsPlasmaEffective radiated powerCondensed Matter PhysicsPlasma oscillationStability (probability)Power (physics)Computational physicslaw.inventionAmplitude modulationResonatorNuclear magnetic resonanceControl theoryPhysics::Plasma PhysicslawGyrotronHigh orderOhmic contactNumerical stabilityPhysics of Plasmas
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Photonic transfer through subwavelength optical waveguides

1998

Optical tunneling effect through dielectric junctions with subwavelength transverse sizes has been demonstrated some years ago. In this letter, we demonstrate how similar effects can be exploited to perform photonic transfer through a subwavelength optical wave guide (SOW) by structuring its optical index along the direction of propagation. The optical transmittance of the SOW is computed self-consistently in direct space through the numerical solution of a Dyson equation. We apply this scheme to investigate the optical properties of different SOW architectures. Even under total internal reflection, in which the light is coupled to the SOW by an evanescent mode, an efficient optical transfe…

PhysicsTotal internal reflectionbusiness.industryNear-field opticsPhysics::OpticsGeneral Physics and AstronomyMicrostructured optical fiberWaveguide (optics)Slot-waveguideOpticsOptoelectronicsPhotonicsbusinessMicrophotonicsPhotonic crystalEurophysics Letters (EPL)
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Generation of self-induced-transparency gap solitons by modulational instability in uniformly doped fiber Bragg gratings

2010

We consider the continuous-wave (cw) propagation through a fiber Bragg grating that is uniformly doped with two-level resonant atoms. Wave propagation is governed by a system of nonlinear coupled-mode Maxwell-Bloch (NLCM-MB) equations. We identify modulational instability (MI) conditions required for the generation of ultrashort pulses in both anomalous and normal dispersion regimes. From a detailed linear stability analysis, we find that the atomic detuning frequency has a strong influence on the MI. That is, the atomic detuning frequency induces nonconventional MI sidebands at the photonic band gap (PBG) edges and near the PBG edges. Especially in the normal dispersion regime, MI occurs w…

PhysicsWave propagationbusiness.industryPhysics::OpticsInstabilityAtomic and Molecular Physics and OpticsNonlinear systemModulational instabilityOpticsFiber Bragg gratingDispersion (optics)WavenumberbusinessPhotonic crystalPhysical Review A
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