0000000000847194

AUTHOR

Emmanuel Pinsard

showing 2 related works from this author

Radiation hardening techniques for rare-earth-based optical fibers and amplifiers

2012

Er/Yb doped fibers and amplifiers have been shown to be very radiation sensitive, limiting their integration in space. We present an approach including successive hardening techniques to enhance their radiation tolerance. The efficiency of our approach is demonstrated by comparing the radiation responses of optical amplifiers made with same lengths of different rare-earth doped fibers and exposed to gamma-rays. Previous studies indicated that such amplifiers suffered significant degradation for doses exceeding 10 krad. Applying our techniques significantly enhances the amplifier radiation resistance, resulting in a very limited degradation up to 50 krad. Our optimization techniques concern …

Optical amplifierOptical fiberMaterials scienceoptical fibersbusiness.industryAmplifierRadiation effects; optical fibers; erbium; ytterbium; amplifierschemistry.chemical_elementRadiation effectsytterbiumRadiationlaw.inventionErbiumerbiumRadiation sensitivitychemistrylawradiation effects optical fibers erbium ytterbium amplifiersOptoelectronicsamplifiersbusinessRadiation hardeningRadiation resistance
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Design of Radiation-Hardened Rare-Earth Doped Amplifiers through a Coupled Experiment/Simulation Approach

2013

International audience; We present an approach coupling a limited experimental number of tests with numerical simulations regarding the design of radiation-hardened (RH) rare earth (RE)-doped fiber amplifiers. Radiation tests are done on RE-doped fiber samples in order to measure and assess the values of the principal input parameters requested by the simulation tool based on particle swarm optimization (PSO) approach. The proposed simulation procedure is validated by comparing the calculation results with the measured degradations of two amplifiers made with standard and RH RE-doped optical fibers, respectively. After validation, the numerical code is used to theoretically investigate the …

Rare-Earth ionsOptical fiberMaterials scienceoptical fiberschemistry.chemical_elementlaw.inventionErbiumlawElectronic engineeringSensitivity (control systems)FiberYtterbiumrare-earth ionsOptical FibersCouplingparticle swarm optimizationAmplifierOptique / photoniqueParticle swarm optimizationytterbiumAtomic and Molecular Physics and OpticsAmplifiers erbium optical fibers particle swarm optimization radiation effects rare-earth ions ytterbiumAmplifiersRadiation EffectserbiumchemistryParticle Swarm Optimizationoptical fiber Rare-earth ions optical amplifier radiation induced absortpion Particle swarm optimization[SPI.OPTI]Engineering Sciences [physics]/Optics / Photonicradiation effectsErbiumSpace environment
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