Zinc strontium phosphate glasses doped with different trivalent praseodymium ion(Pr3t) concentrations are presented and their photoluminescence properties are investigated upon 442 nm excitation. With the Pr3tconcen...Zinc strontium phosphate glasses doped with different trivalent praseodymium ion(Pr3t) concentrations are presented and their photoluminescence properties are investigated upon 442 nm excitation. With the Pr3tconcentration decreasing, the orange emission of Pr3t(1D2-3HJ) is enhanced steadily at the cost of its blue emission(3P1;0-3H4). Monochromic orange emission of Pr3tions is obtained when the Pr3tdoping is reduced to 0.05 mol.%. The mechanism controlling the monochromatic characteristic of Pr3temissions is supposed to be associated with the phonon-aided nonradiative relaxation process of Pr3t:3Pj→1D2, which depends on the Pr3tconcentration as well as the phonon energy of the glass matrix. Sodium zinc tellurite and barium gadolinium germinate glasses with the lower phonon energy are used as reference hosts to clarify this mechanism, and the results obtained support this suggestion.展开更多
基金supported by the Shanghai Leading Academic Discipline Project (No.B502)the National Natural Science Foundation of China (No.51572081)the Doctoral Fund of Ministry of Education of China (No.20120074110018)
文摘Zinc strontium phosphate glasses doped with different trivalent praseodymium ion(Pr3t) concentrations are presented and their photoluminescence properties are investigated upon 442 nm excitation. With the Pr3tconcentration decreasing, the orange emission of Pr3t(1D2-3HJ) is enhanced steadily at the cost of its blue emission(3P1;0-3H4). Monochromic orange emission of Pr3tions is obtained when the Pr3tdoping is reduced to 0.05 mol.%. The mechanism controlling the monochromatic characteristic of Pr3temissions is supposed to be associated with the phonon-aided nonradiative relaxation process of Pr3t:3Pj→1D2, which depends on the Pr3tconcentration as well as the phonon energy of the glass matrix. Sodium zinc tellurite and barium gadolinium germinate glasses with the lower phonon energy are used as reference hosts to clarify this mechanism, and the results obtained support this suggestion.
