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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 |
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Personen und Körperschaften: | , , , , |
In: | Journal of Applied Physics, 108, 2010, 9 |
Format: | E-Article |
Sprache: | Englisch |
veröffentlicht: |
AIP Publishing
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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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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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10.1063/1.3503370 |
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2010 |
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AIP Publishing |
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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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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 |