Effect of Sb₂O₃ addition on photoluminescence properties of zinc phosphate and borate glasses

抄録

Trivalent cation oxides were added to zinc phosphate glasses by conventional melt-quenching technique to dope excess electrons in order to create donor electrons easily excited by the incident light, in specific Ga₂O₃ and Sb₂O₃. By exciting 200 and 250 nm light, the glasses containing Sb₂O₃ emitted visible light, while no emission from those containing Ga₂O₃ could be observable.
The intensity of emission light depended upon Sb₂O₃ concentration, and 0.3–1.0 mol % Sb₂O₃ addition was most effective for the emission, and concentration quenching was seen in over 5 mol % Sb₂O₃ addition. With respect to necessity of the presence of ZnO was explored by replacing ZnO by CaO and BaO. Even by changing of ZnO by CaO and BaO, the emission intensity was not influenced. Further, we used borate glasses instead of phosphate glasses. Since only weak emission was obtained from borate glasses, P₂O₅ can be considered to be indispensable for photoluminescence (PL) phenomena.