Thermally Stimulated Luminescence of X-ray Irradiated Sodium Borate Glasses Doped with Cerium(III) and Samarium(III)

Abstract

Thermally stimulated luminescence has been observed in X-ray irradiated sodium borate glasses codoped with Ce³⁺ and Sm³⁺. The emission wavelength corresponds to the 5d→4f transition of Ce³⁺. X-ray irradiation leads to the ionization of Ce³⁺ to form Ce⁴⁺ and an electron, which is released from the Ce⁴⁺ and trapped by Sm³⁺. Thermal stimulation excites this electron, which transfers to the 5d level of Ce⁴⁺. The radiative relaxation of this electron to the 4f state gives rise to the observed emission. In contrast, point defects such as a non-bridging oxygen hole center and an electron trapped near Na⁺ induced by the X-ray irradiation contribute to the thermally stimulated luminescence in glasses doped with only Ce³⁺. The thermally stimulated emission intensity increases linearly with an increase in the X-ray irradiation time up to 1 h for 25Na₂O· 75B₂O₃: Ce, Sm glass, suggesting that this glass is a promising material for radiation dosimetry.