P.F. Glodis scite author profile

An important scientific and technological goal in the field of optical communications is the achievement of the clarity limit in optical fibres--that is, ensuring that the SiO2 glass from which fibres are made is as transparent as possible. The clarity of the wavelength transmission window (and the width of that window) in existing fibres is already sufficient to form the basis of a world-wide optical communication system, yet it is still limited by contamination of the fibre by water. Here we measure the spatial distribution of water in the glass rods from which optical fibres are drawn and explain the distribution quantitatively with a mathematical model of diffusion in a medium with essentially perfect cylindrical symmetry. Our analysis shows that the water enters from the outside of the rod and diffuses into the molten, flowing glass much faster than is expected from extrapolation of low-temperature measurements. Our elucidation of the physics underlying the contamination process has already led to the fabrication of dry fibres, which have a clarified and broadened communications window. The improved operational range of wavelengths should yield applications for new lasers, optical amplifiers and detectors, and should substantially increase the information-carrying capacity of optical communications systems.

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Observation of modal noise in single-mode-fibre transmission systems

Cheung

Tomita

Glodis

1985

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Asymmetry Measurements for Elastic Scattering ofK+Mesons by Polarized Protons

et al. 1971

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Designing single-mode fibres for near-IR(1.1–1.7 μm) frequency generation by phase-matched four-photon mixing in the minimum chromatic dispersion region

Lin¹,

Reed²,

Pearson³

et al. 1982

Electron. Lett.

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P.F. Glodis

Differential cross sections for pion-proton bremsstrahlung at 269, 298, and 324 MeV

Towards the clarity limit in optical fibre

Observation of modal noise in single-mode-fibre transmission systems

Asymmetry Measurements for Elastic Scattering ofK+Mesons by Polarized Protons

Designing single-mode fibres for near-IR(1.1–1.7 μm) frequency generation by phase-matched four-photon mixing in the minimum chromatic dispersion region

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