Q3688475 (Q3688475): Difference between revisions
Jump to navigation
Jump to search
(Changed an Item: Edited by the infer coords bot - inferring coordinates from location) |
(Created claim: summary (P836): The team “Gas Phase Photonics and Microwave Materials” at the XLIM laboratory is studying hollow photonic crystal fibers, functionalised in a gaseous environment. The latter, produced from silica doped with “rare earth” ions, showed technological limitations at certain wavelengths, in particular the absence of ion emission, as well as the low nonlinearity of the material. As part of this project, the aim is to generate new wavelengths of interes...) |
||||||||||||||
| Property / summary | |||||||||||||||
The team “Gas Phase Photonics and Microwave Materials” at the XLIM laboratory is studying hollow photonic crystal fibers, functionalised in a gaseous environment. The latter, produced from silica doped with “rare earth” ions, showed technological limitations at certain wavelengths, in particular the absence of ion emission, as well as the low nonlinearity of the material. As part of this project, the aim is to generate new wavelengths of interest in favour of industrial laser markets. The company GLOphotonics wants to industrially value the results of this technology in a very short time. It targets the global market for lasers combining hollow fibres and gaseous media. (English) | |||||||||||||||
| Property / summary: The team “Gas Phase Photonics and Microwave Materials” at the XLIM laboratory is studying hollow photonic crystal fibers, functionalised in a gaseous environment. The latter, produced from silica doped with “rare earth” ions, showed technological limitations at certain wavelengths, in particular the absence of ion emission, as well as the low nonlinearity of the material. As part of this project, the aim is to generate new wavelengths of interest in favour of industrial laser markets. The company GLOphotonics wants to industrially value the results of this technology in a very short time. It targets the global market for lasers combining hollow fibres and gaseous media. (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
| Property / summary: The team “Gas Phase Photonics and Microwave Materials” at the XLIM laboratory is studying hollow photonic crystal fibers, functionalised in a gaseous environment. The latter, produced from silica doped with “rare earth” ions, showed technological limitations at certain wavelengths, in particular the absence of ion emission, as well as the low nonlinearity of the material. As part of this project, the aim is to generate new wavelengths of interest in favour of industrial laser markets. The company GLOphotonics wants to industrially value the results of this technology in a very short time. It targets the global market for lasers combining hollow fibres and gaseous media. (English) / qualifier | |||||||||||||||
point in time: 18 November 2021
| |||||||||||||||
Revision as of 18:45, 18 November 2021
Project Q3688475 in France
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q3688475 in France |
Statements
47,820.11 Euro
0 references
174,781.0 Euro
0 references
27.36 percent
0 references
23 October 2015
0 references
31 August 2017
0 references
UNIVERSITE DE LIMOGES
0 references
45°49'33.74"N, 1°15'30.89"E
0 references
L'équipe "Gas Phase Photonics et Microwave matérials" du laboratoire XLIM étudie les fibres creuses à cristal photonique, fonctionnalisées en milieu gazeux. Ces dernières, produites à partir de silice dopée aux ions "terre rare", ont montré des limites technologiques à certaines longueurs d'onde, en particulier, l'absence d'émission d'ions, ainsi que la faible non-linéarité du matériau. Dans le cadre de ce projet, il s'agit de générer de nouvelles longueurs d'onde d'intérêt en faveur des marchés industriels des lasers. L'entreprise GLOphotonics souhaite valoriser industriellement les résultats ce cette technologie dans un délai très court. Elle vise le marché mondial des lasers associant fibres creuses et milieux gazeux. (French)
0 references
The team “Gas Phase Photonics and Microwave Materials” at the XLIM laboratory is studying hollow photonic crystal fibers, functionalised in a gaseous environment. The latter, produced from silica doped with “rare earth” ions, showed technological limitations at certain wavelengths, in particular the absence of ion emission, as well as the low nonlinearity of the material. As part of this project, the aim is to generate new wavelengths of interest in favour of industrial laser markets. The company GLOphotonics wants to industrially value the results of this technology in a very short time. It targets the global market for lasers combining hollow fibres and gaseous media. (English)
18 November 2021
0 references
33 Rue François Mitterrand, 87032 Limoges, France
0 references
Identifiers
2033520
0 references