L.K. De Jonge scite author profile

L.K. De Jonge

3Publications

28Citation Statements Received

32Citation Statements Given

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European Organization for Nuclear Research

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Optical Absorption in Commercial Single Mode Optical Fibers in a High Energy Physics Radiation Field

Wijnands

Jonge

Kuhnhenn

et al. 2008

IEEE Trans. Nucl. Sci.

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Abstract-This paper reports on the radiation induced attenuation of light at 1310 nm and 1550 nm in 12 commercially available single mode (SM) optical fibers. The fiber samples are exposed to gamma rays from a 60 Co source and to a high energy physics radiation field. The attenuation is studied as a function of total dose, dose rate, light power and temperature. Radiation hard fibers from one manufacturer show an extraordinary low attenuation for light at 1310 nm that does not exceed 5 dB/km even after a total dose of 1 MGy. 2500 km of this type of fiber have been produced by the manufacturer and quality assurance measurements of the production batches are presently ongoing.

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Optical absorption in commercial single mode optical fibres in a high energy physics radiation field

Wijnands

Jonge

Kuhnhenn

et al. 2007

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This paper reports on the radiation induced attenuation of light at 1310 nm and 1550 nm in 12 commercially available single mode (SM) optical fibres. The fibres sam pIes are exposed to gamma rays from a 60Co source and to a high energy physics radiation field. The attenuation is studied as a function of total dose, dose rate, light power and tern perature. Radiation resistant fibres from one manufacturer show an extraordinary low attenuation for light at 1310 nm that does not exceed 5 dB/km even after a total dose of 1 MGy. Some 3000 km of this type of fibre have been produced by the manufacturer and quality assurance measurements of the production batches are presently ongoing.

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Optical absorption in commercial single mode optical fibres for the LHC machine

Wijnands

Kuhnhenn²,

Jonge³

et al. 2007

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L.K. De Jonge

Optical Absorption in Commercial Single Mode Optical Fibers in a High Energy Physics Radiation Field

Optical absorption in commercial single mode optical fibres in a high energy physics radiation field

Optical absorption in commercial single mode optical fibres for the LHC machine

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