Exploration of the B₂O₃-Bi₂O₃-MoO₃ glass system based on its physical, optical, and gamma ray shielding capabilities

The physical, optical, and gamma ray shielding capabilities of the B₂O₃-Bi₂O₃-MoO₃ glass system have been evaluated. The optical basicity of the current samples rises from 0.781 to 0.897 with increasing Bi₂O₃ concentration. The values of refractive index, dielectric constant and optical dielectric constant show uptrend and lies in the range of 2.248–2.346, 5.055–5.505, and 4.055–4.505 respectively with addition of Bi₂O₃ in the network. The Metallization criteria is found to decrease from 0.425 to 0.399 as the Bi₂O₃ concentration increases indicates that the samples are non-metallic in nature. The mass attenuation coefficient (MAC) of the selected glass system was calculated at 0.511 MeV photon energy using Phy-X software. We compared the MAC for the current glasses with B₂O₃ based glasses containing different amounts of Li₂O and PbO. We found that the 50B₂O₃-30Bi₂O₃-20MoO₃ glass has higher MAC than 35PbO-25Li₂O-40B₂O₃, while 45B₂O₃-35Bi₂O₃-20MoO₃ has close MAC to that of 45PbO-15Li₂O-40B₂O₃. We also compared the current glasses with TeO₂ based glasses containing different amounts of WO₃ and MoO₃. We found that the present glass system has much higher MAC than the WO₃-MoO₃-TeO₂ glass system. Besides, the MAC for the present glasses was compared with TeO₂ based glasses containing various amounts of ZnO and MoO₃. The comparison demonstrated that all the glasses in the present work have much higher MAC than the ZnO-MoO₃-TeO₂ glasses.