The borate rich glass as a host con

The borate rich glass as a host containing alkaline earth oxides along with ZnO, PbO, Bi2O3 and BaO as a glass modifier is a suitable material for its possible applications in the field of optical filters, optical communications, laser hosts, photonic devices, X-ray and gamma ray absorbers. Barium plays a significant role in the manufacture of radiation shielding glass replacing lead because lead has harmful toxic effect on the environment. Extensive research in barium and bismuth based glass systems has been recently published for radiation shielding materials which shows that these elements can be used in radiation shielding glass [12], [13], [14] and [15]. The rare earth ions are well shielded due to the 4f screened electrons by outer 5s2 5p6 electrons and are much not affected by the crystal field. The glasses containing rare earth ions are not luminescent only but also act as scintillators also under ionising radiation. The presence of rare earths in the glasses increases the radiation hardness [16] and [17]. Optical methods such as UV–vis and infrared spectroscopy provides information about bond length, average coordination number, local symmetry/covalency of bonds among rare earth ion and first shell neighbours. We have earlier reported the CeO2 effects on BaO–B2O3 glasses and this is the continuation of our previous work [18]. So the main objective of the present work is theoretical and experimental investigation of cerium undoped and doped barium borate glasses after gamma irradiation on physical and optical properties such as density, molar volume, UV–visible, transmittance, bond length, covalency, oxygen packing density etc. to evaluate the use of these glasses in nuclear industry mainly for high level nuclear waste immobilization.