Afterglow based detection and dosimetry of beta particle irradiated ZrO2

Ch J. Salas-Juárez; C. Cruz-Vázquez; R. Avilés-Monreal; R. Bernal

doi:10.1016/j.apradiso.2017.10.026

Afterglow based detection and dosimetry of beta particle irradiated ZrO₂

Ch J. Salas-Juárez, C. Cruz-Vázquez, R. Avilés-Monreal, R. Bernal^*

^*Autor correspondiente de este trabajo

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

12 Citas (Scopus)

Resumen

In this work, we report on the afterglow (AG) response characterization of commercially available ZrO₂. Pellet shaped samples previously annealed in air at 1000 °C during 24 h were exposed to beta particle irradiation in the dose range from 0.5 up to 128 Gy and their AG decay curves recorded during 600 s after irradiation exposure. The characteristic glow curves of beta particle irradiated ZrO₂ show two maxima located around 80 °C and 150 °C. The first one rapidly vanishes at room temperature, giving rise to AG. The integrated AG signal increases as dose increases from 0.5 to 128 Gy, with a linear dependence from 0.5 up to ca. 32 Gy. Excellent reproducibility of the AG response was observed in 10 irradiation – AG readout cycles, showing that the studied ZrO₂ samples are reusable. The results here presented show that ZrO₂ is a promising material for use as a radiation dosimeter based on the AG phenomenon.

Idioma original	Inglés
Páginas (desde-hasta)	6-9
Número de páginas	4
Publicación	Applied Radiation and Isotopes
Volumen	138
DOI	https://doi.org/10.1016/j.apradiso.2017.10.026
Estado	Publicada - ago. 2018

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© 2017 Elsevier Ltd

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title = "Afterglow based detection and dosimetry of beta particle irradiated ZrO2 ",

abstract = "In this work, we report on the afterglow (AG) response characterization of commercially available ZrO2. Pellet shaped samples previously annealed in air at 1000 °C during 24 h were exposed to beta particle irradiation in the dose range from 0.5 up to 128 Gy and their AG decay curves recorded during 600 s after irradiation exposure. The characteristic glow curves of beta particle irradiated ZrO2 show two maxima located around 80 °C and 150 °C. The first one rapidly vanishes at room temperature, giving rise to AG. The integrated AG signal increases as dose increases from 0.5 to 128 Gy, with a linear dependence from 0.5 up to ca. 32 Gy. Excellent reproducibility of the AG response was observed in 10 irradiation – AG readout cycles, showing that the studied ZrO2 samples are reusable. The results here presented show that ZrO2 is a promising material for use as a radiation dosimeter based on the AG phenomenon.",

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author = "Salas-Ju{\'a}rez, {Ch J.} and C. Cruz-V{\'a}zquez and R. Avil{\'e}s-Monreal and R. Bernal",

note = "Publisher Copyright: {\textcopyright} 2017 Elsevier Ltd",

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AU - Salas-Juárez, Ch J.

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AU - Avilés-Monreal, R.

AU - Bernal, R.

PY - 2018/8

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N2 - In this work, we report on the afterglow (AG) response characterization of commercially available ZrO2. Pellet shaped samples previously annealed in air at 1000 °C during 24 h were exposed to beta particle irradiation in the dose range from 0.5 up to 128 Gy and their AG decay curves recorded during 600 s after irradiation exposure. The characteristic glow curves of beta particle irradiated ZrO2 show two maxima located around 80 °C and 150 °C. The first one rapidly vanishes at room temperature, giving rise to AG. The integrated AG signal increases as dose increases from 0.5 to 128 Gy, with a linear dependence from 0.5 up to ca. 32 Gy. Excellent reproducibility of the AG response was observed in 10 irradiation – AG readout cycles, showing that the studied ZrO2 samples are reusable. The results here presented show that ZrO2 is a promising material for use as a radiation dosimeter based on the AG phenomenon.

AB - In this work, we report on the afterglow (AG) response characterization of commercially available ZrO2. Pellet shaped samples previously annealed in air at 1000 °C during 24 h were exposed to beta particle irradiation in the dose range from 0.5 up to 128 Gy and their AG decay curves recorded during 600 s after irradiation exposure. The characteristic glow curves of beta particle irradiated ZrO2 show two maxima located around 80 °C and 150 °C. The first one rapidly vanishes at room temperature, giving rise to AG. The integrated AG signal increases as dose increases from 0.5 to 128 Gy, with a linear dependence from 0.5 up to ca. 32 Gy. Excellent reproducibility of the AG response was observed in 10 irradiation – AG readout cycles, showing that the studied ZrO2 samples are reusable. The results here presented show that ZrO2 is a promising material for use as a radiation dosimeter based on the AG phenomenon.

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