Search results for "four-wave mixing"

showing 10 items of 97 documents

Frequency tunable polarization and intermodal modulation instability in high birefringence holey fiber

2009

International audience; We present an experimental analysis of polarization and intermodal noise-seeded parametric amplification, in which dispersion is phase matched by group velocity mismatch between either polarization or spatial modes in birefringent holey fiber with elliptical core composed of a triple defect. By injecting quasi-CW intense linearly polarized pump pulses either parallel or at 45 degrees with respect to the fiber polarization axes, we observed the simultaneous generation of polarization or intermodal modulation instability sidebands. Furthermore, by shifting the pump wavelength from 532 to 625 nm, we observed a shift of polarization sidebands from 3 to 8 THz, whereas int…

Materials sciencePhysics::OpticsPolarization-maintaining optical fiber02 engineering and technology01 natural sciences[PHYS.PHYS.PHYS-AO-PH] Physics [physics]/Physics [physics]/Atmospheric and Oceanic Physics [physics.ao-ph]010309 opticsFour-wave mixing020210 optoelectronics & photonicsOptics0103 physical sciences0202 electrical engineering electronic engineering information engineeringphase modulation[PHYS.PHYS.PHYS-AO-PH]Physics [physics]/Physics [physics]/Atmospheric and Oceanic Physics [physics.ao-ph]birefringence; dispersion (waves); phase modulationPolarization rotatorBirefringencebirefringencebusiness.industryLinear polarizationPolarization (waves)Atomic and Molecular Physics and Optics[ PHYS.PHYS.PHYS-AO-PH ] Physics [physics]/Physics [physics]/Atmospheric and Oceanic Physics [physics.ao-ph]Group velocityPhase velocitybusinessdispersion (waves)
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Tuning four-wave mixing through temperature in ethanol-filled photonic crystal fiber

2016

In this paper, continuous tuning of four-wave mixing bands in an ethanol-filled photonic crystal fiber is investigated. A wide tuning range of the parametric bands, from 745 nm to 920 nm (signal) and from 1260 nm to 1710 nm (idler), is achieved through the thermo-optic effect. This corresponds to a frequency tuning range higher than 2000 cm−1; such wide range can be particularly useful in applications that require broadband wavelength conversion, e.g., CARS microscopy. Numerical calculations are in good agreement with experimental measurements.

Materials sciencebusiness.industry02 engineering and technologyMicrostructured optical fiber021001 nanoscience & nanotechnology01 natural sciencesSignal010309 opticsFour-wave mixingOpticsZero-dispersion wavelength0103 physical sciencesMicroscopyOptoelectronicsDispersion-shifted fiber0210 nano-technologybusinessPhotonic crystalPhotonic-crystal fiber2016 18th International Conference on Transparent Optical Networks (ICTON)
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Broadband Tuning of Four-Wave Mixing Bands Using Photonic Crystal Fibers

2016

We present an experimental study of the shift with temperature of widely-spaced FWM parametric bands generated in an ethanol-inflltrated photonic crystal fiber. We report broadband tuning of 175 nm and over 500 nm for the signal and idler bands, respectively, achieved through the thermo-optic effect. Numerical calculations were carried out and show good agreement with experimental data.

Materials sciencebusiness.industryPhysics::OpticsNonlinear optics01 natural sciencesSignal010309 opticsFour-wave mixingOptics0103 physical sciencesBroadbandOptoelectronics010306 general physicsbusinessPhotonic-crystal fiberPhotonic crystalParametric statistics
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Wideband tuning of four-wave mixing in solid-core liquid-filled photonic crystal fibers

2016

We present an experimental study of parametric four-wave mixing generation in photonic crystal fibers that have been infiltrated with ethanol. A silica photonic crystal fiber was designed to have the proper dispersion properties after ethanol infiltration for the generation of widely spaced four-wave mixing (FWM) bands under 1064 nm pumping. We demonstrate that the FWM bands can be tuned in a wide wavelength range through the thermo-optic effect. Band shifts of 175 and over 500 nm for the signal and idler bands, respectively, are reported. The reported results can be of interest in many applications, such as CARS microscopy.

Materials sciencebusiness.industryScanning electron microscopePhysics::Optics02 engineering and technologyÒptica01 natural sciencesSignalAtomic and Molecular Physics and Optics010309 opticsFour-wave mixing020210 optoelectronics & photonicsOptics0103 physical sciencesDispersion (optics)0202 electrical engineering electronic engineering information engineeringWidebandbusinessMixing (physics)Photonic-crystal fiberPhotonic crystal
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Four Wave Mixing in Photonic Crystal Fibers:<br /> Tuning Techniques

2016

We present an experimental and numerical study of four-wave mixing in photonic crystal fibers. Our objective is the development of tuning techniques based on tailoring de dispersion of the fibers. We demonstrate wide tuning ranges.

Materials sciencebusiness.industryScanning electron microscopePhysics::Opticssymbols.namesakeFour-wave mixingOpticsDispersion (optics)symbolsOptoelectronicsbusinessRaman scatteringMixing (physics)Photonic-crystal fiberPhotonic crystalLatin America Optics and Photonics Conference
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Polarization backward-wave four-wave mixing in BaTiO_3:Fe using the photovoltaic effect

1997

We report the first study to our knowledge of polarization backward-wave four-wave mixing in a BaTiO3:Fe crystal and compare the results of our measurements with the calculations performed within the model of photovoltaic charge transport. Two identically polarized pump waves and one orthogonally polarized signal wave are sent to a sample in a plane normal to the crystal’s C axis; a phase-conjugate wave with polarization identical to that of the signal wave is generated. With a 2-mm-thick sample a phase-conjugate reflectivity Rpc≈0.01 is reached; for a 1-cm-thick sample, amplified reflection should be possible.

Materials sciencebusiness.industryStatistical and Nonlinear PhysicsTransverse wavePhotovoltaic effectElliptical polarizationPolarization (waves)Atomic and Molecular Physics and OpticsFour-wave mixingOpticsCross-polarized wave generationDegree of polarizationAtomic physicsbusinessCircular polarizationJournal of the Optical Society of America B
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Alignment-free, all-spliced fiber laser source for CARS microscopy based on four-wave-mixing

2012

An environmentally-stable low-repetition rate fiber oscillator is developed to produce narrow-bandwidth pulses with several tens of picoseconds duration. Based on this oscillator an alignment-free all-fiber laser for multi-photon microscopy is realized using in-fiber frequency conversion based on four-wave-mixing. Both pump and Stokes pulses for coherent anti-Stokes Raman scattering (CARS) microscopy are readily available from one fiber end, intrinsically overlapped in space and time, which drastically simplifies the experimental handling for the user. The complete laser setup is mounted on a home-built laser scanning microscope with small footprint. High-quality multimodal microscope image…

MicroscopyPhotonsMicroscopeMaterials scienceLaser scanningbusiness.industryLasersPhysics::OpticsArteriesAtherosclerosisSpectrum Analysis RamanLaserLipidsAtomic and Molecular Physics and Opticslaw.inventionFour-wave mixingOpticslawFiber laserMicroscopyHumansCoherent anti-Stokes Raman spectroscopyLaser power scalingCrystallizationbusinessOptics Express
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Polarization Modulation Instability in All-Normal Dispersion Microstructured Optical Fibers With Quasi-Continuous Pump

2019

We report the experimental observation of the polarization modulation instability (PMI) effect in all-normal dispersion (ANDi) microstructured optical fibers (MOFs) with quasi-continuous pumping. The small unintentional birefringence (~10-5), that any realistic non-polarization maintaining MOF exhibits, contributes to this nonlinear effect. PMI can produce two sidebands whose polarization state is orthogonal to the polarization of the pump. In this work, only one type of PMI process is observed, i.e., when the pump is polarized along the slow axis of the fiber and sidebands are generated in the fast axis mode. This PMI process was studied experimentally in two ANDi fibers with different dis…

Microstructured optical fiberslcsh:Applied optics. PhotonicsWork (thermodynamics)Optical fiberMaterials sciencePhysics::Optics02 engineering and technology01 natural sciencesInstabilitylaw.invention010309 opticsOpticslawFiber nonlinear optics0103 physical sciencesDispersion (optics)Four-wave mixinglcsh:QC350-467FiberElectrical and Electronic EngineeringBirefringencebusiness.industrylcsh:TA1501-1820021001 nanoscience & nanotechnologyPolarization (waves)Atomic and Molecular Physics and OpticsOptical polarizationNonlinear system0210 nano-technologybusinesslcsh:Optics. LightChromatic dispersionIEEE Photonics Journal
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On the designing of densely dispersion-managed optical fiber systems for ultrafast optical communication

2003

We present some theoretical and experimental results which suggest the possibility of constructing a non-empirical methodology of designing optical transmission systems with ultra high bit-rate per channel. Theoretically, we present an average dispersion decreasing densely dispersion-managed (A4dm) fiber system, which exhibits many advantages over the densely dispersion-managed fiber system, such as the possibility of transmitting chirp-free Gaussian pulses at 160 Gbit/s per channel over transoceanic distances, with a reduced energy and minimal intra-channel interaction. Experimentally we present generation of a 160-GHz picosecond pulse train at 1550 nm using multiple four-wave mixing tempo…

Multi-mode optical fiberMaterials scienceOptical fiberbusiness.industryPulse generatorOptical communicationlaw.inventionFour-wave mixingOpticslawDispersion-shifted fiberPulse waveElectrical and Electronic EngineeringbusinessUltrashort pulse
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Local photo-oxidation of individual single walled carbon nanotubes probed by femtosecond four wave mixing imaging

2014

Photo-oxidation of individual, air-suspended single walled carbon nanotubes (SWCNTs) is studied by femtosecond laser spectroscopy and imaging. Individual SWCNTs are imaged by four wave mixing (FWM) microscopy under an inert gas (Ar or N2) atmosphere. When imaging is performed in an ambient air atmosphere, the decay of the FWM signal takes place. Electron microscopy shows that SWCNTs are not destroyed and the process is attributed to photoinduced oxidation reactions which proceed via a non-linear excitation mechanism, when irradiation is performed with ∼30 fs pulses in the visible spectral region (500-600 nm). Photo-oxidation can be localized in specific regions of SWCNTs within optical reso…

NanotubeMaterials scienceta114mixing imaginglocal photo-oxidationAnalytical chemistryGeneral Physics and AstronomyCarbon nanotubelaw.inventionsymbols.namesakeFour-wave mixinglawindividual single walled carbon nanotubesFemtosecondMicroscopysymbolsIrradiationPhysical and Theoretical Chemistryfour waveRaman spectroscopyInert gasta116femtosecondPhysical Chemistry Chemical Physics
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