Energy Transfer in the CaSO4−Dy Thermoluminescent Dosimeter from the Excited State of the SO42− Anionic Complex to the Impurities

The creation of a combined radiative state at 2.95–3.1 eV in the phosphor CaSO4−Dy 3+ has been investigated using vacuum ultraviolet and thermoactivation spectroscopy methods. It is shown that the combined radiative electronic state is formed from the radiative electronic states of the impurity elec...

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Published inCrystals (Basel) Vol. 13; no. 11; p. 1596
Main Authors Nurakhmetov, Turlybek N., Alibay, Temirulan T., Zhangylyssov, Keleshek B., Daurenbekov, Dulat H., Salikhodzha, Zhussupbek M., Shamiyeva, Raushan K., Sadykova, Batsaiy M., Yussupbekova, Bagila N., Tolekov, Doszhan A.
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 17.11.2023
Subjects
Anions
Annealing
Charge transfer
Dosimetry
Electron states
Energy transfer
Impurities
Industrial plant emissions
Nuclear energy
Nuclear power plants
Phosphors
Radiation
X-rays
Belarus
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Summary:The creation of a combined radiative state at 2.95–3.1 eV in the phosphor CaSO4−Dy 3+ has been investigated using vacuum ultraviolet and thermoactivation spectroscopy methods. It is shown that the combined radiative electronic state is formed from the radiative electronic states of the impurity electronic trapping centers Dy 2+− SO4− and the intrinsic electronic radiative states SO43−−SO4− during the excitation of the anion complex SO42−, as a result of charge transfer from the excited anion complex O 2−−Dy 3+ to the impurities and the neighboring anion complex O2−− SO42−. In the CaSO4−Dy phosphor, the combined radiative electronic state and impurity emission of Dy 3+, 2.16 eV and 2.56 eV are excited by photons with energies of 3.95–4.0 eV and 4.5–4.6 eV. Energy transfer from the matrix to the Dy 3+ impurities is revealed upon thermal exposure as a result of the ionization of the electronic capture centers of Dy2+ and SO43−.
ISSN:2073-4352
2073-4352
DOI:10.3390/cryst13111596