Topics
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mass spectrometryTopical concept
optical fiberAnatomical structure
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germaniumMilitary unit
ionComics character
The relative distribution of five elements present in the core area of several optical fiber samples has been obtained by utilizing nanoscale-secondary ion mass spectrometry. A strong correlation between the rare-earth (RE) ion and aluminum was observed, consistent with aluminum's improving the solubility of the RE ion. The central dip in distribution was less severe than that observed for germanium, characteristic of the collapse process during fabrication of the fiber preform
A comparative study on the influence of different precursor salts of Er and Al for fabrication of ra...
Accurate determination of the rare earth dopant distribution in optical fibers enhances our understa...
Abstract: Developing of new rare-earth (RE)-doped optical fibres for power amplifiers and lasers req...
The relative distribution of five elements present in the core area of several optical fiber samples...
Spectroscopy of ions in optical fibers is of particular interest for two distinct reasons. The first...
Rare-earth doped optical fibers are important for telecomunications, where they are used in fiber la...
We present a non-destructive optical technique for a full characterization of rare-earth-doped optic...
A micro-fluorescence technique for profiling the spatial distribution of erbium ions doped into opti...
The process parameters involved at various stages of solution doping method for fabricating rare ear...
Increasing bandwidth demand in optical communication systems has led to significant research efforts...
Dopant profiles in erbium doped optical fibres acquired by the application of fluorescence intensity...
Research into rare-earth ion doping of silica based optical fibres is described and a detailed study...
In this paper we demonstrate the application of two microscopic imaging techniques, Raman Fluorescen...
Accurate determination of the rare earth dopant distribution in optical fibers enhances our understa...
Traditionally little attention was paid to glasses doped with rare-earth ions because of their scarc...
A comparative study on the influence of different precursor salts of Er and Al for fabrication of ra...
Accurate determination of the rare earth dopant distribution in optical fibers enhances our understa...
Abstract: Developing of new rare-earth (RE)-doped optical fibres for power amplifiers and lasers req...
The relative distribution of five elements present in the core area of several optical fiber samples...
Spectroscopy of ions in optical fibers is of particular interest for two distinct reasons. The first...
Rare-earth doped optical fibers are important for telecomunications, where they are used in fiber la...
We present a non-destructive optical technique for a full characterization of rare-earth-doped optic...
A micro-fluorescence technique for profiling the spatial distribution of erbium ions doped into opti...
The process parameters involved at various stages of solution doping method for fabricating rare ear...
Increasing bandwidth demand in optical communication systems has led to significant research efforts...
Dopant profiles in erbium doped optical fibres acquired by the application of fluorescence intensity...
Research into rare-earth ion doping of silica based optical fibres is described and a detailed study...
In this paper we demonstrate the application of two microscopic imaging techniques, Raman Fluorescen...
Accurate determination of the rare earth dopant distribution in optical fibers enhances our understa...
Traditionally little attention was paid to glasses doped with rare-earth ions because of their scarc...
A comparative study on the influence of different precursor salts of Er and Al for fabrication of ra...
Accurate determination of the rare earth dopant distribution in optical fibers enhances our understa...
Abstract: Developing of new rare-earth (RE)-doped optical fibres for power amplifiers and lasers req...
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