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New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses

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Zeitschriftentitel: Journal of Applied Physics
Personen und Körperschaften: Gilard, Olivier, Caussanel, Matthieu, Duval, Hervé, Quadri, Gianandrea, Reynaud, François
In: Journal of Applied Physics, 108, 2010, 9
Format: E-Article
Sprache: Englisch
veröffentlicht:
AIP Publishing
Schlagwörter:
General Physics and Astronomy
author_facet Gilard, Olivier
Caussanel, Matthieu
Duval, Hervé
Quadri, Gianandrea
Reynaud, François
Gilard, Olivier
Caussanel, Matthieu
Duval, Hervé
Quadri, Gianandrea
Reynaud, François
author Gilard, Olivier
Caussanel, Matthieu
Duval, Hervé
Quadri, Gianandrea
Reynaud, François
spellingShingle Gilard, Olivier
Caussanel, Matthieu
Duval, Hervé
Quadri, Gianandrea
Reynaud, François
Journal of Applied Physics
New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
General Physics and Astronomy
author_sort gilard, olivier
spelling Gilard, Olivier Caussanel, Matthieu Duval, Hervé Quadri, Gianandrea Reynaud, François 0021-8979 1089-7550 AIP Publishing General Physics and Astronomy http://dx.doi.org/10.1063/1.3503370 <jats:p>A new theoretical approach is proposed to explain the dose, dose rate and temperature sensitivity of the radiation-induced absorption (RIA) in glasses. In this paper, a βth-order dispersive kinetic model is used to simulate the growth of the density of color centers in irradiated glasses. This model yields an explanation for the power-law dependence on dose and dose rate usually observed for the RIA in optical fibers. It also leads to an Arrhenius-like relationship between the RIA and the glass temperature during irradiation. With a very limited number of adjustable parameters, the model succeeds in explaining, with a good agreement, the RIA growth of two different optical fiber references over wide ranges of dose, dose rate and temperature.</jats:p> New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses Journal of Applied Physics
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title New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_unstemmed New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_full New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_fullStr New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_full_unstemmed New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_short New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_sort new model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
topic General Physics and Astronomy
url http://dx.doi.org/10.1063/1.3503370
publishDate 2010
physical
description <jats:p>A new theoretical approach is proposed to explain the dose, dose rate and temperature sensitivity of the radiation-induced absorption (RIA) in glasses. In this paper, a βth-order dispersive kinetic model is used to simulate the growth of the density of color centers in irradiated glasses. This model yields an explanation for the power-law dependence on dose and dose rate usually observed for the RIA in optical fibers. It also leads to an Arrhenius-like relationship between the RIA and the glass temperature during irradiation. With a very limited number of adjustable parameters, the model succeeds in explaining, with a good agreement, the RIA growth of two different optical fiber references over wide ranges of dose, dose rate and temperature.</jats:p>
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author Gilard, Olivier, Caussanel, Matthieu, Duval, Hervé, Quadri, Gianandrea, Reynaud, François
author_facet Gilard, Olivier, Caussanel, Matthieu, Duval, Hervé, Quadri, Gianandrea, Reynaud, François, Gilard, Olivier, Caussanel, Matthieu, Duval, Hervé, Quadri, Gianandrea, Reynaud, François
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container_title Journal of Applied Physics
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description <jats:p>A new theoretical approach is proposed to explain the dose, dose rate and temperature sensitivity of the radiation-induced absorption (RIA) in glasses. In this paper, a βth-order dispersive kinetic model is used to simulate the growth of the density of color centers in irradiated glasses. This model yields an explanation for the power-law dependence on dose and dose rate usually observed for the RIA in optical fibers. It also leads to an Arrhenius-like relationship between the RIA and the glass temperature during irradiation. With a very limited number of adjustable parameters, the model succeeds in explaining, with a good agreement, the RIA growth of two different optical fiber references over wide ranges of dose, dose rate and temperature.</jats:p>
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institution DE-Rs1, DE-Pl11, DE-105, DE-14, DE-Ch1, DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-D161, DE-Gla1, DE-Zi4, DE-15
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spelling Gilard, Olivier Caussanel, Matthieu Duval, Hervé Quadri, Gianandrea Reynaud, François 0021-8979 1089-7550 AIP Publishing General Physics and Astronomy http://dx.doi.org/10.1063/1.3503370 <jats:p>A new theoretical approach is proposed to explain the dose, dose rate and temperature sensitivity of the radiation-induced absorption (RIA) in glasses. In this paper, a βth-order dispersive kinetic model is used to simulate the growth of the density of color centers in irradiated glasses. This model yields an explanation for the power-law dependence on dose and dose rate usually observed for the RIA in optical fibers. It also leads to an Arrhenius-like relationship between the RIA and the glass temperature during irradiation. With a very limited number of adjustable parameters, the model succeeds in explaining, with a good agreement, the RIA growth of two different optical fiber references over wide ranges of dose, dose rate and temperature.</jats:p> New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses Journal of Applied Physics
spellingShingle Gilard, Olivier, Caussanel, Matthieu, Duval, Hervé, Quadri, Gianandrea, Reynaud, François, Journal of Applied Physics, New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses, General Physics and Astronomy
title New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_full New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_fullStr New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_full_unstemmed New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_short New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_sort new model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
title_unstemmed New model for assessing dose, dose rate, and temperature sensitivity of radiation-induced absorption in glasses
topic General Physics and Astronomy
url http://dx.doi.org/10.1063/1.3503370