期刊
OPTIK
卷 247, 期 -, 页码 -出版社
ELSEVIER GMBH
DOI: 10.1016/j.ijleo.2021.168005
关键词
Structural properties; Oxide ion polarizability; Optical absorption; Bandgap analysis; Two photon absorption; Multilevel radiation shielding
类别
资金
- Deanship of Scientific Research at Princess Nourah bint Abdulrahman University through the Fast-track Research Funding Program
A unique set of multicomponent glasses with different oxide compositions were fabricated and analyzed for their structural and compositional characteristics. Among them, the glass containing zinc stood out for its oxide ion polarizability and mechanical moduli. In terms of radiation shielding ability, the glass containing barium showed the greatest potential.
An exclusive set of multicomponent glasses (BTPME) with composition 39B(2)O(3)-20PbO-15TeO(2)-10P(2)O(5)-15MO-1Eu(2)O(3) (where M = BaO, CaO, SrO, Li2O, ZnO) have been fabricated. The structural and elastic features of the glasses are parameterized to define the effect of modifiers in the system. XRD, FTIR analyses were carried out for the evaluation of structural and compositional identification. The glass containing Zn (BTPZE) stands out of all the glasses based on the oxide ion polarizability, mechanic moduli that predicted its structure to be tightly packed. The glasses were undergone complex neutron shielding and gamma shielding evaluations based on macroscopic cross-sections calculation and Phy-X software, respectively. When comparing Li containing glass (BTPLE) and Ca containing glass (BTPCE), the fast neutron mass removal cross-section (Sigma(R)/rho) decrease 3.5 times the partial density increases only 1.6 times - a result is a decrease in Sigma(R) from 0.1469 cm(-1) to 0.1353 cm(-1). In terms of radiation shielding ability, the greater effective atomic number (Z(eff)) typically signifies that the Ba containing glass (BTPBE) has the greatest potential in this field.
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