摘要
A new kind of Nd^3+-doped high silica glass (SiO2 〉 96% (mass fraction)) was obtained by sintering porous glass impregnated with Nd^3 + ions. The absorption and luminescence properties of high silica glass doped with different Nd^3 + concentrations were studied. The intensity parameters Ωt (t = 2, 4, 6), spontaneous emission probability, fluorescence lifetime, radiative quantum efficiency, fluorescence branching ratio, and stimulated emission cross section were calculated using the Judd-Ofelt theory. The optimal Nd^3+ concentration in high silica glass was 0.27% (mole fraction) because of its high quantum efficiency and emission intensity. By comparing the spectroscopic parameters with other Nd^3 +- doped oxide glasses and commercial silicate glasses, the Nd^3 + -doped high silica glasses are likely to be a promising material used for high power and high repetition rate lasers.
A new kind of Nd^3+-doped high silica glass (SiO2 〉 96% (mass fraction)) was obtained by sintering porous glass impregnated with Nd^3 + ions. The absorption and luminescence properties of high silica glass doped with different Nd^3 + concentrations were studied. The intensity parameters Ωt (t = 2, 4, 6), spontaneous emission probability, fluorescence lifetime, radiative quantum efficiency, fluorescence branching ratio, and stimulated emission cross section were calculated using the Judd-Ofelt theory. The optimal Nd^3+ concentration in high silica glass was 0.27% (mole fraction) because of its high quantum efficiency and emission intensity. By comparing the spectroscopic parameters with other Nd^3 +- doped oxide glasses and commercial silicate glasses, the Nd^3 + -doped high silica glasses are likely to be a promising material used for high power and high repetition rate lasers.
基金
Project supported bythe National Natural Science Foundation of China (50125258 and 60377040) ,the Shanghai Nano-TechPromote Center (0352nm042)
