Search results for "optical pulse"

showing 7 items of 7 documents

Review of space charge measurement systems: acoustic, thermal and optical methods

2016

In the last decade, remarkable developments have concerned the methods of space charge measurement in the field of insulation systems diagnostic. In particular, methods based on acoustic and thermal phenomena have been largely used. The present review provides a broad overview on the different techniques used describing, for each of them, the working principle, the main features and the most relevant applications. Further details are provided for the Pulsed Electro-Acoustic (PEA) method, as it seems to be the most used. This article provides more details on its historical evolution, showing evidence for its technological limits and taking into consideration the advantages and drawn from the…

010302 applied physicsEngineeringField (physics)business.industry020209 energySystem of measurementMechanical engineering02 engineering and technology01 natural sciencesSpace chargeSettore ING-IND/31 - ElettrotecnicaSpace charge Charge measurement Acoustics Optical variables measurement Electrodes Acoustic measurements Optical pulses0103 physical sciencesThermal0202 electrical engineering electronic engineering information engineeringElectrical and Electronic EngineeringbusinessThermal methodsIEEE Transactions on Dielectrics and Electrical Insulation
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Parametric Frequency Conversion of Short Optical Pulses Controlled by a CW Background

2007

International audience; We predict that parametric sum-frequency generation of an ultra-short pulse may result from the mixing of an ultra-short optical pulse with a quasi-continuous wave control. We analytically show that the intensity, time duration and group velocity of the generated idler pulse may be controlled in a stable manner by adjusting the intensity level of the background pump.

Materials sciencebusiness.industryoptical pulseFOS: Physical sciencesPhysics::OpticsTime duration01 natural sciencesAtomic and Molecular Physics and OpticsIntensity (physics)Pulse (physics)010309 opticsFrequency conversionOptics0103 physical sciencescontinuous wave lasersGroup velocityoptical pulse; light; continuous wave laserslight010306 general physicsbusinessMixing (physics)Optics (physics.optics)Parametric statisticsPhysics - Optics
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High-repetition-rate source delivering optical pulse trains with a controllable level of amplitude and temporal jitters

2020

International audience; We theoretically propose and numerically validate an all-optical scheme to generate optical pulse trains with varying peak-powers and durations. A shaping of the spectral phase thanks to discrete /2 phase shifts enables an efficient phase-to-intensity conversion of a temporal phase modulation based on a two-tone sinusoidal beating. Experiments carried out at telecommunication wavelengths and at a repetition rate of 10 GHz confirm the ability of our approach to efficiently generate a train made of pulses with properties that vary from pulse-to-pulse. The levels of jitters can be accurately controlled.

Phase (waves)FOS: Physical sciences02 engineering and technologyoptical telecommunications01 natural scienceslcsh:QA75.5-76.95010309 optics020210 optoelectronics & photonicsOptics0103 physical sciences0202 electrical engineering electronic engineering information engineeringhigh-repetition rate optical pulse trainsPhysics[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics]optical component testingRepetition (rhetorical device)business.industryhigh‐repetition rate optical pulse trainsPulse (physics)WavelengthAmplitudelcsh:TA1-2040Trainlcsh:Electronic computers. Computer sciencebusinesslcsh:Engineering (General). Civil engineering (General)Phase modulationOptics (physics.optics)Physics - Optics
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The role of nonlinear optical absorption in narrowband difference-frequency terahertz-wave generation

2010

We present a general analysis of the influence of nonlinear optical absorption on terahertz generation via optical difference frequency generation, when reaching for the quantum conversion efficiency limit. By casting the equations governing the process in a suitably normalized form, including either two-photon- or three-photon-absorption terms, we have been able to plot universal charts for phase matched optical-to-terahertz conversion for different values of the nonlinear absorption coefficients. We apply our analysis to some experiments reported to date, in order to understand to what extent multiphoton absorption could have played a role and also to predict the maximum achievable conver…

Physicsbusiness.industryTerahertz radiationEnergy conversion efficiencyFOS: Physical sciencesPhysics::OpticsNonlinear opticsStatistical and Nonlinear PhysicsTwo-photon absorptionAtomic and Molecular Physics and OpticsPhoton countingOptical rectificationOpticsNarrowbandOptical frequency conversion Optical materials Optical parametric amplifiers Optical phase matching Optical propagation in nonlinear media Optical pulse generation Optical waveguides Frequency conversion Semiconductor materials Semiconductor waveguidesbusinessAbsorption (electromagnetic radiation)Optics (physics.optics)Physics - OpticsJournal of the Optical Society of America B
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Exploiting the optical quadratic nonlinearity of zinc-blende semiconductors for guided-wave terahertz generation: A material comparison

2010

We present a detailed analysis and comparison of dielectric waveguides made of CdTe, GaP, GaAs and InP for modal phase matched optical difference frequency generation (DFG) in the terahertz domain. From the form of the DFG equations, we derived the definition of a very general figure of merit (FOM). In turn, this FOM enabled us to compare different configurations, by taking into account linear and nonlinear susceptibility dispersion, terahertz absorption, and a rigorous evaluation of the waveguide modes properties. The most efficient waveguides found with this procedure are predicted to approach the quantum efficiency limit with input optical power in the order of kWs.

Semiconductor waveguidesTerahertz radiationPhase (waves)FOS: Physical sciencesPhysics::OpticsOptical powerFrequency conversionSettore ING-INF/01 - ElettronicaOptical pulse generationSemiconductor materialsDispersion (optics)Optical phase matchingFigure of meritOptical parametric amplifiersElectrical and Electronic EngineeringOptical propagation in nonlinear mediaPhysicsGuided wave testingbusiness.industryOptical frequency conversionCondensed Matter PhysicsAtomic and Molecular Physics and OpticsOptical waveguidesNonlinear systemOptical materialsTerahertz generationOptoelectronicsOptical frequency conversion Optical materials Optical parametric amplifiers Optical phase matching Optical propagation in nonlinear media Optical pulse generation Optical waveguides Frequency conversion Semiconductor materials Semiconductor waveguidesQuantum efficiencybusinessOptics (physics.optics)Physics - OpticsIEEE Journal of Quantum Electronics
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Periodic time-domain modulation for the electrically tunable control of optical pulse train envelope and repetition rate multiplication

2012

An electrically tunable system for the control of optical pulse sequences is proposed and demonstrated. It is based on the use of an electrooptic modulator for periodic phase modulation followed by a dispersive device to obtain the temporal Talbot effect. The proposed configuration allows for repetition rate multiplication with different multiplication factors and with the simultaneous control of the pulse train envelope by simply changing the electrical signal driving the modulator. Simulated and experimental results for an input optical pulse train of 10 GHz are shown for different multiplication factors and envelope shapes. © 2006 IEEE.

Signal processingElectrically tunableMultiplication factorElectrical signalPhysics::Optics02 engineering and technologyOptical signal processingSimultaneous control01 natural sciencesOptical pulse train010309 opticsQ switched lasers020210 optoelectronics & photonicsOptics0103 physical sciencesTEORIA DE LA SEÑAL Y COMUNICACIONES0202 electrical engineering electronic engineering information engineeringTalbot effectPulse waveOptical fibersTime domainOptical fiber dispersionElectrical and Electronic EngineeringTemporal Talbot effectsEnvelope (waves)PhysicsTelecomunicacionesDispersive devicesRepetition rate multiplicationbusiness.industryOptical pulse shapingAtomic and Molecular Physics and OpticsPulse (physics)Optical signalsPhase modulationModulationTemporal Talbot effectElectro-optic modulatorsPulse trainOptical pulse sequencesDiffraction gratingsMultiplicationElectrónicaTime domainbusinessPhase modulation
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Universal charts for optical difference frequency generation in the terahertz domain

2010

We present a universal and rigorous approach to study difference frequency generation in the terahertz domain, keeping the number of degrees of freedom to a minimum, through the definition of a suitable figure of merit. The proposed method relies on suitably normalized charts, that enable to predict the optical-to-terahertz conversion efficiency of any system based on wave propagation in quadratic nonlinear materials. The predictions of our approach are found to be in good agreement with the best experimental results reported to date, enabling also to estimate the d22 nonlinear coefficient of high quality GaSe.

Wave propagationComputer scienceTerahertz radiationDegrees of freedom (statistics)FOS: Physical sciencesFrequency conversionSettore ING-INF/01 - ElettronicaOptical pulse generationDomain (software engineering)Semiconductor materialsQuadratic equationQuality (physics)Submillimeter wave transmittersFigure of meritOptical parametric amplifiersElectrical and Electronic EngineeringOptical propagation in nonlinear mediaOptical frequency conversionSettore ING-INF/02 - Campi ElettromagneticiCondensed Matter PhysicsAtomic and Molecular Physics and Opticsoptical parametric amplifiersemiconductor materialNonlinear systemAlgorithmOptics (physics.optics)Physics - OpticsIEEE Journal of Quantum Electronics
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