Dependence of the POR and NBOHC defects as function of the dose in hydrogen-treated and untreated KU1 glass fibers

We evaluated the performances of the hydrogen-loading technique to reduce the radiation-induced absorption in optical fibers in the visible part of the spectrum. A reduction factor as large as one order of magnitude can be obtained in high dose-rate regime. Based on a spectral deconvolution method,...

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Veröffentlicht in:	IEEE transactions on nuclear science 2003-12, Vol.50 (6), p.2024-2029
Hauptverfasser:	Brichard, B., Fernandez, A.F., Ooms, H., Borgermans, P., Berghmans, F.
Format:	Artikel
Sprache:	eng
Schlagworte:	Deconvolution Defects Electromagnetic wave absorption Glass Glass fibers Hydrogen Optical fiber devices Optical fiber testing Optical fibers Performance evaluation Preforms Radiation hardening Reduction Silicon compounds Spectra
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creator	Brichard, B. Fernandez, A.F. Ooms, H. Borgermans, P. Berghmans, F.
description	We evaluated the performances of the hydrogen-loading technique to reduce the radiation-induced absorption in optical fibers in the visible part of the spectrum. A reduction factor as large as one order of magnitude can be obtained in high dose-rate regime. Based on a spectral deconvolution method, we showed that hydrogen preferentially interacts with NBOHC defects while the number of POR defects is not affected.
doi_str_mv	10.1109/TNS.2003.822097
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subjects	Deconvolution Defects Electromagnetic wave absorption Glass Glass fibers Hydrogen Optical fiber devices Optical fiber testing Optical fibers Performance evaluation Preforms Radiation hardening Reduction Silicon compounds Spectra
title	Dependence of the POR and NBOHC defects as function of the dose in hydrogen-treated and untreated KU1 glass fibers
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