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Chemical change from diffused hydrogen gas to hydroxyl ion in silica glass optical fibres

Chemical change from diffused hydrogen gas to hydroxyl ion in silica glass optical fibres

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Published

The chemical change from hydrogen gas that diffuses into silica glass for optical fibres to hydroxyl function has been investigated. Hydrogen molecules that diffuse into GeO2-doped silica glass at 500°C easily change into OH ions by thermal energy, while this chemical change does not occur in pure silica glass at 500°C. Also, germanium-doped silica fibre, in which hydrogen gas is dissolved at room temperature, shows OH ion absorption loss increase with chemical change by heat treatment at above 100°C, while pure silica core fibre shows no OH ion absorption loss increase by the same treatment.

Inspec keywords: diffusion in solids; losses; optical fibres; silicon compounds; heat treatment; germanate glasses

Other keywords: SiO2; OH+ absorption loss increase; H2 diffusion; thermal energy; optical fibres; heat treatment; chemical change; germanate glasses; room temperature; 500°C; SiO2-GeO2

Subjects: Fibre optics; Fibre optics and fibre waveguides

References

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