Department of Applied Physics, Samrat Ashok Technological Institute, Vidisha, MP 464001, India.
J Fluoresc. 2011 Jul;21(4):1337-42. doi: 10.1007/s10895-011-0864-9. Epub 2011 Mar 2.
The Er(3+) -Yb(3+) codoped in Li(2)O content tungsten -tellurite (TWL) transparent glasses are synthesized and measured the absorption, Raman and upconversion luminescence (UPL) spectra. At room temperature intense green emission peak at 560 nm ((4)S(3/2)→(4)I(15/2)) and red emission peak at 670 nm ((4)F(9/2)→(4)I(15/2)) of Er(3+) observed even at minimum 86 mW pumping power of infrared 980 nm excitation. For structure of the TWL glass, Raman spectrum result revealed that an important role of WO(3) in the formation of glass network linkage with Li(2)O. Under this influence estimated lifetime of the (4)I(11/2) of Er(3+) was 1.89 μs and due to lower phonon energy of the glass produce strong upconversion signal. The effect of Er(2)O(3) concentration on emission intensity result indicated that green emission intensity initially increase in compare to red emission. Under the 980 nm pump power variation measured the relatively increases the red emission to the green emission intensity and analyze the possible upconversion mechanism and process.
掺铒(Er3+)-掺镱(Yb3+)的氧化锂-钨碲酸盐(TWL)透明玻璃被合成并测量了吸收、拉曼和上转换发光(UPL)光谱。在室温下,即使在红外 980nm 激发的最小 86mW 泵浦功率下,也观察到了铒(Er3+)的强绿光发射峰(560nm((4)S(3/2)→(4)I(15/2))和红光发射峰(670nm((4)F(9/2)→(4)I(15/2)))。对于 TWL 玻璃的结构,拉曼光谱结果表明 WO3 在玻璃网络形成中具有重要作用,与 Li2O 相连。在这种影响下,Er3+的(4)I(11/2)的估计寿命为 1.89μs,并且由于玻璃的声子能量较低,产生了强的上转换信号。Er2O3 浓度对发射强度的影响结果表明,绿光发射强度最初比红光发射强度增加。在 980nm 泵浦功率变化下,测量到红光发射强度相对于绿光发射强度的相对增加,并分析了可能的上转换机制和过程。
