The role of anion and cation vacancies in the thermoluminescence and photoluminescence processes of BaSO4:Eu2+

Abstract

Synthesis of BaSO4:Eu2+, Na+ by precipitation method followed by solid state diffusion in reducing atmosphere was found to result in high thermoluminescence (TL) as well as photoluminescence (PL) sensitivities. BaSO4:Eu2+ does not need any charge compensation, since both Ba2+ and Eu2+ are in 2+ valence states. But Eu cannot be doped into BaSO4 without a flux and the aliovalent cations at substitutional sites and anions at interstitial sites originating from the flux/sensitizer materials can create/remove lattice vacancies which influence its TL and PL efficiencies. BaSO4:Eu2+, Na+ exhibits high TL efficiency due to the electron traps caused by anion vacancies. It exhibits an intense TL peak at 250°C accompanied with two shoulder peaks on its either side, one at 190°C and the other at 310°C similar to the commercial Japanese sample. A redox process involving sulfate radicals and anion vacancies (F+ centers) is proposed as a viable TL process. Its TL response versus gamma dose was found to be linear in the range 1–100mGy. However, it exhibits a fading of 30% on storage at RT for 3 weeks. The influence of optical fading on this aspect needs to be studied. The presence of cation vacancies caused by oxidation of Eu2+ to Eu3+ or Cl− at interstitial sites reduces the TL as well as PL efficiencies of BaSO4:Eu2+.