Collaborations
Collaborations.LPMCWBlanc History
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(:title Collaborations:)
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!! %newwin% [[http://lpmc.unice.fr/Blanc-Wilfried,626.html | Wilfried Blanc]]\\
!! Optical Fibers team, LPMC (Laboratory of Condensed Matter Physics), University of Nice-Sophia Antipolis\\\
!! Light diffusion in nanostructured optical fibers\\
Optical fibers are the basis for applications that have grown considerably in recent years (telecommunications, sensors, fiber lasers, etc.). Despite these undeniable successes, it is necessary to develop new generations of amplifying optical fibers that will overcome some limitations typical of silica. In this sense, the amplifying Transparent Glass Ceramics (TGC), and particularly the fibers based on this technology, open new perspectives that combine the mechanical and chemical properties of a glass host and the augmented spectroscopic properties of embedded nanoparticles, particularly rare earth-doped oxide nanoparticles. Such rare earth-doped silica-based optical fibers with transparent glass ceramic (TGC) core are fabricated by the Optical Fibers team of the Laboratory of Condensed Matter Physics (LPMC) in Nice. The objective of this collaboration with Wilfried Blanc at LPMC is the study of optical transmission terms of loss due to scattering through the numerical simulation of light propagation in a nanostructured optical fiber core
using a high order DGTD method developed in the team.
(:table border='0' width='100%' align='center' cellspacing='1px':)
(:cellnr align='center':) %width=250px% http://www-sop.inria.fr/nachos/pics/collabs/w_blanc/nano_fiber.png
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!! %newwin% [[http://lpmc.unice.fr/Blanc-Wilfried,626.html | Wilfried Blanc]]\\
!! Optical Fibers team, LPMC (Laboratory of Condensed Matter Physics), University of Nice-Sophia Antipolis\\\
!! Light diffusion in nanostructured optical fibers\\
Optical fibers are the basis for applications that have grown considerably in recent years (telecommunications, sensors, fiber lasers, etc.). Despite these undeniable successes, it is necessary to develop new generations of amplifying optical fibers that will overcome some limitations typical of silica. In this sense, the amplifying Transparent Glass Ceramics (TGC), and particularly the fibers based on this technology, open new perspectives that combine the mechanical and chemical properties of a glass host and the augmented spectroscopic properties of embedded nanoparticles, particularly rare earth-doped oxide nanoparticles. Such rare earth-doped silica-based optical fibers with transparent glass ceramic (TGC) core are fabricated by the Optical Fibers team of the Laboratory of Condensed Matter Physics (LPMC) in Nice. The objective of this collaboration with Wilfried Blanc at LPMC is the study of optical transmission terms of loss due to scattering through the numerical simulation of light propagation in a nanostructured optical fiber core
using a high order DGTD method developed in the team.
(:table border='0' width='100%' align='center' cellspacing='1px':)
(:cellnr align='center':) %width=250px% http://www-sop.inria.fr/nachos/pics/collabs/w_blanc/nano_fiber.png
(:tableend:)
>><<