The identification of the center acting as electron source for the well-known 110 °C thermoluminescence (TL) peak of quartz is of fundamental importance for practical applications in dating and dosimetry. This TL peak was studied in parallel with the electron paramagnetic resonance (EPR) signal of the [GeO4]− center on natural colourless quartz irradiated at room temperature. Immediately after irradiation, the signals of the 110 °C TL peak and of [GeO4]− center decay exponentially in the same way, yielding a lifetime of 50.4 ± 0.9 min at room temperature. Besides, we acquired the isothermal decay curves for the 110 °C TL peak and [GeO4]− center at different temperatures (the samples were held at the selected temperature in the range of 260–308 K). The lifetimes extracted by the isothermal decays were plotted as a function of reciprocal temperature, revealing again the same behavior of the 110 °C TL peak and [GeO4]− center, both characterized by activation energies very close of 0.76 ± 0.07 eV and 0.77 ± 0.07 eV, respectively. All results of the present work clearly show the role of electron source of [GeO4]− center in the emission mechanism of the 110 °C TL peak in quartz.

Vaccaro, G., Panzeri, L., Paleari, S., Martini, M., Fasoli, M. (2017). EPR investigation of the role of germanium centers in the production of the 110 °C thermoluminescence peak in quartz. QUATERNARY GEOCHRONOLOGY, 39, 99-104 [10.1016/j.quageo.2017.02.005].

EPR investigation of the role of germanium centers in the production of the 110 °C thermoluminescence peak in quartz

VACCARO, GIANFRANCO
;
PANZERI, LAURA
Secondo
;
PALEARI, STEFANO;MARTINI, MARCO
Penultimo
;
FASOLI, MAURO
Ultimo
2017

Abstract

The identification of the center acting as electron source for the well-known 110 °C thermoluminescence (TL) peak of quartz is of fundamental importance for practical applications in dating and dosimetry. This TL peak was studied in parallel with the electron paramagnetic resonance (EPR) signal of the [GeO4]− center on natural colourless quartz irradiated at room temperature. Immediately after irradiation, the signals of the 110 °C TL peak and of [GeO4]− center decay exponentially in the same way, yielding a lifetime of 50.4 ± 0.9 min at room temperature. Besides, we acquired the isothermal decay curves for the 110 °C TL peak and [GeO4]− center at different temperatures (the samples were held at the selected temperature in the range of 260–308 K). The lifetimes extracted by the isothermal decays were plotted as a function of reciprocal temperature, revealing again the same behavior of the 110 °C TL peak and [GeO4]− center, both characterized by activation energies very close of 0.76 ± 0.07 eV and 0.77 ± 0.07 eV, respectively. All results of the present work clearly show the role of electron source of [GeO4]− center in the emission mechanism of the 110 °C TL peak in quartz.
Articolo in rivista - Articolo scientifico
Electron paramagnetic resonance; Point defect; Quartz; Thermoluminescence; Geology; Stratigraphy; Earth and Planetary Sciences (miscellaneous)
English
2017
39
99
104
reserved
Vaccaro, G., Panzeri, L., Paleari, S., Martini, M., Fasoli, M. (2017). EPR investigation of the role of germanium centers in the production of the 110 °C thermoluminescence peak in quartz. QUATERNARY GEOCHRONOLOGY, 39, 99-104 [10.1016/j.quageo.2017.02.005].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/151649
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