Topics
silicaChemical substance
telluriteChemical substance
wavelengthCountry
pulsed laser depositionTopical concept
Ultrafast pulsed lasers with pulse durations of 40-100 fs are used to deposit rare earth doped tellurite glass onto silica glass substrates in a pulsed laser deposition (PLD) chamber. Under certain conditions, the tellurite glass plasma mixes with the silica glass network producing a thin glass film of tellurite-modified-silica which produces some unique physical, and when doped with rare earth ions, spectroscopic properties. Layers of tellurite-modified-silica glass up to 2 µm thick have been produced with refractive indices of around 1.65, compared to 1.46 and 2.0 for the silica substrate and tellurite target glasses, respectively. Rare earth ions can be doped into these layers in concentrations which are higher than would be possible in ...
The market for devices operating in the mid-infrared wavelength range has been booming since the yea...
10 págs.; 7 figs.; Optical Components and Materials XIIIPulsed Laser Deposition (PLD) is used to pro...
We report on the pulsed laser deposition (PLD) of thin films of chalcogenide and tellurite glasses d...
Ultrafast pulsed lasers with pulse durations of 40-100 fs are used to deposit rare earth doped tellu...
International audienceErbium doped tellurite glass thin films were deposited using excimer (193 nm) ...
It has been a decade since the ultrafast laser plasma doping technique was first developed at The Un...
Thin glass films have been produced by implanting Tm³⁺ doped and Tm³⁺/Er³⁺ codoped tellurite glasses...
Chemical dissimilarity of tellurium oxide with silica glass increases phase separation and crystalli...
Highly rare-earth doped silicates have the potential to enact far-reaching changes in photonic devic...
Thin films of Er 3+-doped tungsten tellurite glass have been prepared by the pulsed laser deposition...
Rare-earth (RE) doped optical materials, compatible with CMOS processing, are essential for the deve...
The limited solubility of rare-earths in silica hampers the development of loss-compensated photoni...
Tellurite glass is well known for its excellent optical properties in the application of optical fib...
We characterise the thin-film structural properties and photoluminescence of femtosecond (40 fs, 800...
Ultrafast laser plasma doping (ULPD) is a recently developed technique that enables the blending of ...
The market for devices operating in the mid-infrared wavelength range has been booming since the yea...
10 págs.; 7 figs.; Optical Components and Materials XIIIPulsed Laser Deposition (PLD) is used to pro...
We report on the pulsed laser deposition (PLD) of thin films of chalcogenide and tellurite glasses d...
Ultrafast pulsed lasers with pulse durations of 40-100 fs are used to deposit rare earth doped tellu...
International audienceErbium doped tellurite glass thin films were deposited using excimer (193 nm) ...
It has been a decade since the ultrafast laser plasma doping technique was first developed at The Un...
Thin glass films have been produced by implanting Tm³⁺ doped and Tm³⁺/Er³⁺ codoped tellurite glasses...
Chemical dissimilarity of tellurium oxide with silica glass increases phase separation and crystalli...
Highly rare-earth doped silicates have the potential to enact far-reaching changes in photonic devic...
Thin films of Er 3+-doped tungsten tellurite glass have been prepared by the pulsed laser deposition...
Rare-earth (RE) doped optical materials, compatible with CMOS processing, are essential for the deve...
The limited solubility of rare-earths in silica hampers the development of loss-compensated photoni...
Tellurite glass is well known for its excellent optical properties in the application of optical fib...
We characterise the thin-film structural properties and photoluminescence of femtosecond (40 fs, 800...
Ultrafast laser plasma doping (ULPD) is a recently developed technique that enables the blending of ...
The market for devices operating in the mid-infrared wavelength range has been booming since the yea...
10 págs.; 7 figs.; Optical Components and Materials XIIIPulsed Laser Deposition (PLD) is used to pro...
We report on the pulsed laser deposition (PLD) of thin films of chalcogenide and tellurite glasses d...
Add to ORKG