Add to ORKGFibre lasers and inherently rare-earth-doped optical fibers nowadays pass through a new period of their progress aiming at high efficiency of systems and their high power. In this paper, we deal with the preparation of silica fibers doped with erbium and Al2O3 nanocrystals and the characterization of their optical properties. The fibers were prepared by the extended Modified Chemical Vapor Deposition (MCVD) method from starting chlorides or oxide nanopowders. Conventional as well as modified approaches led to a nanocrystalline mullite phase formation in the fiber cores in which erbium is dissolved. The proposed modified approach based on starting nanopowders led to improved geometry of preforms and fibers and consequently to the improvement...
Optical fibers are the basis for applications that have grown considerably in recent years (telecomm...
International audienceRare earth (RE) doped silica-based optical fibres with transparent glass ceram...
An efficient method to fabricate transparent glass ceramic fibers containing in-situ grown Er3+-dope...
Fibre lasers and inherently rare-earth-doped optical fibers nowadays pass through a new period of th...
Nanoparticle doping is an alternative approach the conventional solution doping method allowing the ...
Rare-earth doped optical fibers are important for telecomunications, where they are used in fiber la...
International audienceTo extend the use of erbium- (Er-)/aluminum- (Al-) codoped optical fibers in h...
International audienceStructuring the matter has appeared for several decades as an essential step i...
Erbium-doped active optical fiber was successfully prepared by incorporation of ceramic nanocrystals...
International audienceRare earth (RE) doped silica-based optical fibers with transparent glass ceram...
Abstract: Developing of new rare-earth (RE)-doped optical fibres for power amplifiers and lasers req...
Abstract. The fabrication of Er-doped ZrO2-based nanocrystalline phase-separated optical fiber prefo...
International audienceThe success of optical fibers based on silica glass are many: transmission fib...
International audienceThe success of silica-based optical fibers are many: transmission fibers and f...
International audienceRare earth (RE) doped silica-based optical fibers with transparent glass ceram...
Optical fibers are the basis for applications that have grown considerably in recent years (telecomm...
International audienceRare earth (RE) doped silica-based optical fibres with transparent glass ceram...
An efficient method to fabricate transparent glass ceramic fibers containing in-situ grown Er3+-dope...
Fibre lasers and inherently rare-earth-doped optical fibers nowadays pass through a new period of th...
Nanoparticle doping is an alternative approach the conventional solution doping method allowing the ...
Rare-earth doped optical fibers are important for telecomunications, where they are used in fiber la...
International audienceTo extend the use of erbium- (Er-)/aluminum- (Al-) codoped optical fibers in h...
International audienceStructuring the matter has appeared for several decades as an essential step i...
Erbium-doped active optical fiber was successfully prepared by incorporation of ceramic nanocrystals...
International audienceRare earth (RE) doped silica-based optical fibers with transparent glass ceram...
Abstract: Developing of new rare-earth (RE)-doped optical fibres for power amplifiers and lasers req...
Abstract. The fabrication of Er-doped ZrO2-based nanocrystalline phase-separated optical fiber prefo...
International audienceThe success of optical fibers based on silica glass are many: transmission fib...
International audienceThe success of silica-based optical fibers are many: transmission fibers and f...
International audienceRare earth (RE) doped silica-based optical fibers with transparent glass ceram...
Optical fibers are the basis for applications that have grown considerably in recent years (telecomm...
International audienceRare earth (RE) doped silica-based optical fibres with transparent glass ceram...
An efficient method to fabricate transparent glass ceramic fibers containing in-situ grown Er3+-dope...