摘要
研究了Ba3La(BO3)3基质中Dy3+的光致发光特性;探讨了RE3+的电荷半径比(z/r)和Ce3+,Dy3+含量对Dy3+发光强度及发光颜色的影响;分析了Ba3La(BO3)3中Ce3+对Dy3+发光的敏化作用;确定了Dy3+的4F9/2→6H15/2及4F9/2→6H13/2跃迁发射的浓度猝灭机制均为电偶极 电四极相互作用。
The photoluminescence of Dy^(3+) mon-doped or Dy^(3+), Ce^(3+) codoped in Ba_3La(BO_3)_3 were studied. The dependence of the charge-to-radius ratio (z/r) for RE^(3+)(RE=La, Ce), the Ce^(3+), Dy^(3+) content on the emission intensity and the yellow to blue intensity rate (Y/B) of Dy^(3+) were investigated too. The results obtained indicate that Ce^(3+) can sensitize the luminescence of Dy^(3+). The optimum concentration of Dy^(3+) in Ba_3La(BO_3)_3 is x_(Dy)=0.06. According to the dependence of the concentration of Dy^(3+) in Ba_3La(BO_3)_3 under the excitation of 350 nm, it is confirmed that the mechanism of concentration selfquenching of Dy^(3+) (()~4F_(9/2)→()~6H_(15/2),) (()~6H_(13/2)) transition is electric dipole-quadrupole interaction.
出处
《中国稀土学报》
CAS
CSCD
北大核心
2004年第5期596-599,共4页
Journal of the Chinese Society of Rare Earths
基金
国家自然科学基金资助项目(20371017)