Dopant profiles in erbium doped optical fibres acquired by the application of fluorescence intensity based confocal microscopy technique and the employment of a nanoscale-secondary ion mass spectrometry (NanoSIMS) system are presented and compare
Summary form only given. Analyzing and profiling the dopants in laser active materials, especially f...
Various dopants are added in commercially available optical glass fibers. The specific atomic specie...
The properties of glass optical fibres are very strongly dependent on the elemental concentration pr...
In this paper we demonstrate the application of two microscopic imaging techniques, Raman Fluorescen...
A micro-fluorescence technique for profiling the spatial distribution of erbium ions doped into opti...
We demonstrate the application of a Fluorescence Intensity Confocal Optical Microscopy technique to ...
Accurate determination of the rare earth dopant distribution in optical fibers enhances our understa...
Accurate determination of the rare earth dopant distribution in optical fibers enhances our understa...
Rare-earth doped optical fibers are important for telecomunications, where they are used in fiber la...
The relative distribution of five elements present in the core area of several optical fiber samples...
We present a non-destructive optical technique for a full characterization of rare-earth-doped optic...
The fluorescence lifetimes of rare earth-doped fibres and waveguides were studied in this thesis to ...
This thesis presents a method for accurate characterisation of optical fibres using highspatial reso...
Erbium-doped optical fibres are commonly used to realize amplifiers. To control and modify erbium sp...
Chromatic dispersion measurement on short lengths of erbium-doped optical fibres by the interferomet...
Summary form only given. Analyzing and profiling the dopants in laser active materials, especially f...
Various dopants are added in commercially available optical glass fibers. The specific atomic specie...
The properties of glass optical fibres are very strongly dependent on the elemental concentration pr...
In this paper we demonstrate the application of two microscopic imaging techniques, Raman Fluorescen...
A micro-fluorescence technique for profiling the spatial distribution of erbium ions doped into opti...
We demonstrate the application of a Fluorescence Intensity Confocal Optical Microscopy technique to ...
Accurate determination of the rare earth dopant distribution in optical fibers enhances our understa...
Accurate determination of the rare earth dopant distribution in optical fibers enhances our understa...
Rare-earth doped optical fibers are important for telecomunications, where they are used in fiber la...
The relative distribution of five elements present in the core area of several optical fiber samples...
We present a non-destructive optical technique for a full characterization of rare-earth-doped optic...
The fluorescence lifetimes of rare earth-doped fibres and waveguides were studied in this thesis to ...
This thesis presents a method for accurate characterisation of optical fibres using highspatial reso...
Erbium-doped optical fibres are commonly used to realize amplifiers. To control and modify erbium sp...
Chromatic dispersion measurement on short lengths of erbium-doped optical fibres by the interferomet...
Summary form only given. Analyzing and profiling the dopants in laser active materials, especially f...
Various dopants are added in commercially available optical glass fibers. The specific atomic specie...
The properties of glass optical fibres are very strongly dependent on the elemental concentration pr...
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