Add to ORKGInternational audienceWe report the first spectral and power-law modeling of cooperative luminescence in an ytterbium-doped optical silica fibre structure enabling the creation of new saturation effects. We believe that the low-concentration transfer originates in the ytterbium-oxide molecule itself and is consequently due to the inherently oxidizing MCVD process
International audienceBy considering samples of ytterbium-doped silica glass from fibre preforms, we...
Ytterbium (Yb) doped silica fibers are widely used in high power fiber lasers where co-doping the si...
International audienceWe have demonstrated by spectral analysis of thermally stimulated luminescence...
International audienceWe report the first spectral and power-law modeling of cooperative luminescenc...
International audienceWe report the first spectral and power-law modeling of cooperative luminescenc...
International audienceWe report the first spectral and power-law modeling of cooperative luminescenc...
International audienceWe report the first spectral and power-law modeling of cooperative luminescenc...
International audienceWe report the first spectral and power-law modeling of cooperative luminescenc...
The present work describes photodarkening from the viewpoint of cooperative luminescence. The tempor...
The visible cooperative luminescence in Ytterbium-doped optical fibres was observed using a Titanium...
The present work describes photodarkening from the viewpoint of cooperative luminescence. The tempor...
The present work describes photodarkening from the viewpoint of cooperative luminescence. The tempor...
Resonant excitation Yb3+ at 974 nm (10267 /cm) in codoped Yb3+-Tb3+ silica based fibres has lead to ...
International audienceWe present some of our research activities dedicated to doped silica-based opt...
Recently, significant power losses in ytterbium-doped fibers have been interpreted as resulting from...
International audienceBy considering samples of ytterbium-doped silica glass from fibre preforms, we...
Ytterbium (Yb) doped silica fibers are widely used in high power fiber lasers where co-doping the si...
International audienceWe have demonstrated by spectral analysis of thermally stimulated luminescence...
International audienceWe report the first spectral and power-law modeling of cooperative luminescenc...
International audienceWe report the first spectral and power-law modeling of cooperative luminescenc...
International audienceWe report the first spectral and power-law modeling of cooperative luminescenc...
International audienceWe report the first spectral and power-law modeling of cooperative luminescenc...
International audienceWe report the first spectral and power-law modeling of cooperative luminescenc...
The present work describes photodarkening from the viewpoint of cooperative luminescence. The tempor...
The visible cooperative luminescence in Ytterbium-doped optical fibres was observed using a Titanium...
The present work describes photodarkening from the viewpoint of cooperative luminescence. The tempor...
The present work describes photodarkening from the viewpoint of cooperative luminescence. The tempor...
Resonant excitation Yb3+ at 974 nm (10267 /cm) in codoped Yb3+-Tb3+ silica based fibres has lead to ...
International audienceWe present some of our research activities dedicated to doped silica-based opt...
Recently, significant power losses in ytterbium-doped fibers have been interpreted as resulting from...
International audienceBy considering samples of ytterbium-doped silica glass from fibre preforms, we...
Ytterbium (Yb) doped silica fibers are widely used in high power fiber lasers where co-doping the si...
International audienceWe have demonstrated by spectral analysis of thermally stimulated luminescence...