Efficient single frequency fibre lasers using novel photosensitive Er/Yb optical fibres

Boron- and germanium-doped highly photosensitive cladding is used in a novel design to achieve photosensitive Er/Yb-doped fibers, permitting short, strong gratings (length ~1cm, reflectivity >99%) to be written without hydrogenation. The high absorption at 980nm in Er/Yb fibers permits efficient...

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Bibliographic Details
Main Authors: Dong, L. (Author), Loh, W.H (Author), Caplen, J.E (Author), Minelly, J.D (Author), Hsu, K. (Author), Reekie, L. (Author)
Format: Article
Language:English
Published: 1997.
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Summary:Boron- and germanium-doped highly photosensitive cladding is used in a novel design to achieve photosensitive Er/Yb-doped fibers, permitting short, strong gratings (length ~1cm, reflectivity >99%) to be written without hydrogenation. The high absorption at 980nm in Er/Yb fibers permits efficient pump absorption over a short device length, which is ideal for achieving highly efficient single-frequency fiber lasers. Both single-frequency Bragg-grating reflector and distributed-feedback lasers with slope efficiencies of 25% with respect to launched pump power have been realized in such fibers.