Search results for "Linear"

showing 10 items of 7165 documents

Characterization of optogeometric parameters of optical fibers by near-field scanning probe microscopies

2000

The combination of atomic-force and scanning-near-field optical microscopies is useful for characterizing the physical and optical parameters of optoelectronic devices. With a commercial atomic-force microscope adapted to perform scanning-near-field optical measurements, we succeed in determining core diameters, localizing the erbium doping zone, and analyzing propagation modes in erbium-doped and multimodal optical fibers.

Materials scienceOptical fiberMicroscopebusiness.industryPhysics::OpticsStatistical and Nonlinear PhysicsNear and far fieldChemical vapor depositionErbium dopingAtomic and Molecular Physics and OpticsPtychographylaw.inventionCharacterization (materials science)Core (optical fiber)Condensed Matter::Materials ScienceOpticslawbusinessJournal of the Optical Society of America B
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All-optical nonlinear processing of both polarization state and intensity profile for 40 Gbit/s regeneration applications

2011

International audience; In this paper, we report all-optical regeneration of the state of polarization of a 40-Gbit/s return-to-zero telecommunication signal as well as its temporal intensity profile and average power thanks to an easy-to-implement, all-fibered device. In particular, we experimentally demonstrate that it is possible to obtain simultaneously polarization stabilization and intensity profile regeneration of a degraded light beam thanks to the combined effects of counterpropagating four-wave mixing, self-phase modulation and normal chromatic dispersion taking place in a single segment of optical fiber. All-optical regeneration is confirmed by means of polarization and bit-error…

Materials scienceOptical fiberNonlinear opticsOptical communicationPolarization-maintaining optical fiber02 engineering and technologyfibersoptical communications01 natural sciencesNonlinear optical deviceslaw.invention010309 opticsFour-wave mixing020210 optoelectronics & photonicsOpticslawWavelength-division multiplexing0103 physical sciences0202 electrical engineering electronic engineering information engineeringSelf-phase modulationOptical processing devices[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics][ PHYS.PHYS.PHYS-OPTICS ] Physics [physics]/Physics [physics]/Optics [physics.optics]business.industryNonlinear opticsAtomic and Molecular Physics and OpticsOptoelectronicsfour-wave mixingbusinessPhotonic-crystal fiber
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Ternary and quaternary Ge-S-Se-Sb-Te amorphous chalcogenide thin films for mid-infrared applications

2017

International audience; Chalcogenide materials exhibit a unique portfolio of properties which has led to their wide use for nonvolatile memory applications such as optical storage (CD-RW and DVD-RAM), Conductive Bridging Random Access Memory or Phase Change Random Access Memory (PCRAM). More recently, thanks to huge electronic nonlinearities under electrical field application, chalcogenide glasses are considered as most promising materials to be used as Ovonic Threshold Switching (OTS) selectors [1]. Besides, thanks to high transparency window in the infrared range and large optical nonlinearities [2], chalcogenide alloys offer the opportunity of development of innovative mid-infrared (MIR)…

Materials scienceOptical fiberNonlinear optics[SPI.OPTI] Engineering Sciences [physics]/Optics / PhotonicChalcogenideOptical films[SPI.NANO] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics02 engineering and technologyOptical storage[SPI.MAT] Engineering Sciences [physics]/Materials01 natural scienceslaw.invention[SPI.MAT]Engineering Sciences [physics]/Materials010309 opticschemistry.chemical_compoundOpticslaw0103 physical sciencesOptical fibersThin film[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsComputingMilieux_MISCELLANEOUSbusiness.industryNonlinear optics021001 nanoscience & nanotechnology3. Good healthAmorphous solidSupercontinuumNon-volatile memorychemistryOptical variables controlOptical sensors[SPI.OPTI]Engineering Sciences [physics]/Optics / PhotonicOptoelectronicsOptical refraction0210 nano-technologybusiness
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Group birefringence cancellation in highly birefringent photonic crystal fibre at telecommunication wavelengths

2010

International audience; The spectral dependence of the group modal birefringence in a highly birefringent nonlinear photonic crystal fibre is studied both numerically and experimentally. The sign inversion and the cancellation of the group modal birefringence in the telecommunication window is demonstrated. Two simple experimental techniques are used to evaluate the wavelength of zero polarisation mode dispersion. The experimental results are in excellent agreement with numerical calculations based on vectorial beam propagation method simulations.

Materials scienceOptical fiberPhysics::Optics02 engineering and technology01 natural sciencesPhotonic crystal fibrelaw.invention010309 optics020210 optoelectronics & photonicsOpticsBeam propagation methodlaw0103 physical sciences0202 electrical engineering electronic engineering information engineeringNonlinear photonic crystalElectrical and Electronic EngineeringPhotonic crystal[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics][ PHYS.PHYS.PHYS-OPTICS ] Physics [physics]/Physics [physics]/Optics [physics.optics]Birefringencebusiness.industryWavelengthOptoelectronicsModal birefringencebusinessTelecommunications
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Suppression of stimulated Raman scattering in optical fibres by power-controlled multifrequency pumping

1999

International audience; We present a method for suppressing the stimulated Raman scattering process induced by a multifrequency pump field propagating in a normally dispersive single-mode fibre. The suppression process is completely achieved by suitably choosing the frequency separation between the pumps, as well as the power distribution among the frequency components of the pump field. The experimental spectra show the effectiveness of this suppression process for a dual-frequency pumping configuration.

Materials scienceOptical fiber[SPI.OPTI] Engineering Sciences [physics]/Optics / PhotonicField (physics)Wave propagationPhysics::Optics02 engineering and technology01 natural sciencesSpectral linelaw.invention010309 opticssymbols.namesakeOpticslawFrequency separation0103 physical sciences0202 electrical engineering electronic engineering information engineeringElectrical and Electronic EngineeringPhysical and Theoretical Chemistrybusiness.industry020208 electrical & electronic engineeringSingle-mode optical fiberNonlinear opticsAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materialssymbols[SPI.OPTI]Engineering Sciences [physics]/Optics / Photonic[ SPI.OPTI ] Engineering Sciences [physics]/Optics / PhotonicbusinessRaman scattering
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GigaHertz to TeraHertz Ultrashort Pulse Sources at 1555 nm

2006

We experimentally study the generation of ultrashort pulses through multiple four wave-mixing in optical fibers. Well-separated transform-limited Gaussian pulses are generated at repetition rates ranging from 20 GHz to 1 THz around 1555 nm.

Materials scienceOptical fiberbusiness.industryFiber nonlinear opticsTerahertz radiation020208 electrical & electronic engineeringPhysics::OpticsNonlinear opticsRanging02 engineering and technologylaw.invention020210 optoelectronics & photonicsOpticslawDispersion (optics)0202 electrical engineering electronic engineering information engineeringOptoelectronicsStimulated emissionbusinessUltrashort pulseComputingMilieux_MISCELLANEOUS
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Shaping the supercontinuum spectral profile

2009

We numerically recognize a procedure for shaping, at least to some extent, the spectral profile of the supercontinuum (SC) generated by soft-glass photonic crystal fibers (PCFs). As example, we identify a PCF geometry that provides an ultrawide (over an octave) and very flat SC when pumped with pulsed light parameters corresponding to a commercially available Er-doped femtosecond fiber laser.

Materials scienceOptical fiberbusiness.industryPhysics::OpticsNonlinear opticsFemtosecond fiber laserOctave (electronics)Supercontinuumlaw.inventionOptical pumpingOpticslawOptoelectronicsbusinessPhotonic crystalPhotonic-crystal fiber2009 11th International Conference on Transparent Optical Networks
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Tunable Four-wave Mixing Light Source Based on Photonic Crystal Fibers with Variable Chromatic Dispersion

2019

We present a detailed experimental study of fourwave mixing tuning in photonic crystal fibers that were filled either with ethanol or with heavy water. It is demonstrated that wide tuning ranges can be achieved in both cases through the variable chromatic dispersion generated by thermo-optic effect. Tunability of the signal band from 745 nm to 919 nm, and of the idler band from 1260 nm to 1759 nm is demonstrated with a pump at 1064 nm. Numerical calculations were carried out and show good agreement with experimental measurements. We present a detailed experimental study of fourwave mixing tuning in photonic crystal fibers that were filled either with ethanol or with heavy water. It is demon…

Materials scienceOptical fiberbusiness.industryphotonic crystal fibersnonlinear opticsUNESCO::FÍSICANonlinear opticsPhysics::Opticsnonlinear microscopyAtomic and Molecular Physics and Opticslaw.inventionsymbols.namesakeFour-wave mixinglaw:FÍSICA [UNESCO]symbolsOptoelectronicsfour-wave mixingbusinessRefractive indexRaman scatteringMixing (physics)Photonic-crystal fiberVariable (mathematics)
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Fourth-order cascaded Raman shift in AsSe chalcogenide suspended-core fiber pumped at 2 μm

2011

International audience; Cascaded Raman wavelength shifting up to the fourth order ranging from 2092 to 2450nm is demonstrated using a nanosecond pump at 1995nm in a low-loss As38Se62 suspended-core microstructured fiber. These four Stokes shifts are obtained with a low peak power of 11W, and only 3W are required to obtain three shifts. The Raman gain coefficient for the fiber is estimated to (1.6 +-0.5)x 10e−11 m/W at 1995nm. The positions and the amplitudes of the Raman peaks are well reproduced by the numerical simulations of the nonlinear propagation.

Materials scienceOptical fibermoyen infrarougeChalcogenide02 engineering and technologyverre de chalcogénurecascades Raman01 natural scienceslaw.invention010309 opticssymbols.namesakechemistry.chemical_compoundOpticslawfibre optique microstucturée0103 physical sciencesFiber[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics][ PHYS.PHYS.PHYS-OPTICS ] Physics [physics]/Physics [physics]/Optics [physics.optics]business.industryoptique nonlinéaireNonlinear optics[CHIM.MATE]Chemical Sciences/Material chemistryNanosecond021001 nanoscience & nanotechnologyAtomic and Molecular Physics and OpticsCore (optical fiber)coeur suspenduchemistry[ CHIM.MATE ] Chemical Sciences/Material chemistrysymbols190.5650 060.4370 060.2390.0210 nano-technologyRaman spectroscopybusinessRaman scattering
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Triphenyl group containing molecular glasses of azobenzene for photonic applications

2016

Abstract D-π-A type organic molecules have attracted considerable attention of scientists due to their potential applications in nonlinear optics and holographic data storage as light, flexible and low-cost photonic materials. To provide a better understanding on the relation between the compound chemical structure and their physical properties necessary for the mentioned purposes, eight glassy triphenyl group containing derivatives of azobenzene with incorporated 5,5-dimethylcyclohex-2-enylidene or 4H-pyran-4-ylidene structural fragments and dicyanomethylene, indene-1,3-dione and pyrimidine-2,4,6(1H,3H,5H)-trione acceptor groups have been synthesized and investigated. Thermal stability of …

Materials scienceOrganic solar cell02 engineering and technology010402 general chemistryPhotochemistry01 natural sciencesInorganic Chemistrychemistry.chemical_compoundOrganic chemistryMoleculeThermal stabilityElectrical and Electronic EngineeringPhysical and Theoretical ChemistrySpectroscopyOrganic ChemistryNonlinear optics021001 nanoscience & nanotechnologyAcceptorAtomic and Molecular Physics and Optics0104 chemical sciencesElectronic Optical and Magnetic MaterialsAmorphous solidAzobenzenechemistry0210 nano-technologyGlass transitionOptical Materials
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