机构地区:[1]Key laboratory of Photo-electronic Materials, Ningbo University [2]Ningbo Institute of Materials Technology and Engineering,Chinese Academy of Sciences [3]Department of Physics, Dalian Maritime University
出 处:《Optoelectronics Letters》2013年第5期362-366,共5页光电子快报(英文版)
基 金:supported by the National Natural Science Foundation of China(Nos.51272109 and 50972061);the Natural Science Foundation of Zhejiang Province(No.R4100364);the Natural Science Foundation of Ningbo in Zhejiang Province of China(No.2012A610115);K.C.Wong Magna Fund in Ningbo University
摘 要:The use of Pr3+co-doping for great enhancement of mid-infrared(mid-IR) emissions at 2.9 μm and 2.4 μm is investigated in the Ho3+/Pr3+co-doped LiYF4 crystals.With the introduction of Pr3+ions,the fluorescence lifetime of Ho3+:5I7 level is 2.15 ms for Ho3+/Pr3+co-doped crystal,and the lifetime for Ho3+singly doped crystal is 17.70 ms,while the lifetime of Ho3+:5I6 level decreases slightly from 2.11 ms for Ho3+:LiYF4 to 1.83 ms for Ho3+/Pr3+:LiYF4.It is also demonstrated that the introduction of Pr3+greatly increases the mid-infrared emission of Ho3+:5I6 →5I7 which depopulates the Ho3+:5I7 level,while it has little influence on the Ho3+:5I6 level,which is beneficial for greater population inversion and laser operation.The analysis on the decay curves of the 2.0 μm emissions in the framework of the Inokuti-Hirayama model indicates that the energy transfer from Ho3+to Pr3+is mainly from electric dipole-dipole interaction.The calculated efficiency of energy transfer from Ho3+:5I7 to Pr3+:3F2 level is 87.53% for Ho3+/Pr3+(1.02%/0.22%) co-doped sample.Our results suggest that the Ho3+/Pr3+co-doped LiYF4 single crystals may have potential applications in mid-IR lasers.The use of Pr^3+ co-doping for great enhancement of mid-infrared (mid-IR) emissions at 2.9 gm and 2.4 μm is investigated in the Ho^3+/pr^3+ co-doped LiYF4 crystals. With the introduction of Pr^3+ ions, the fluorescence lifetime of Ho^3+:sI7 level is 2.15 ms for Ho^3+/pr^3+co-doped crystal, and the lifetime for Ho^3+ singly doped crystal is 17.70 ms, while the lifetime of H0^3+:5I6 level decreases slightly from 2.1l ms for Ho^3+:LiYF4 to 1.83 ms for Ho^3+/pr^3+:LiYF4. It is also demonstrated that the introduction of Pr3+ greatly increases the mid-infrared emission of H03+:5I6→5I7 which depopulates the H03+:5I7 level, while it has little influence on the Ho^3+:516 level, which is beneficial for greater population inversion and laser operation. The analysis on the decay curves of the 2.0 μm emissions in the framework of the Inokuti-Hirayama model indicates that the energy transfer from Ho^3+ to Pr^3+ is mainly from electric dipole-dipole interaction. The calculated efficiency of energy transfer from H0^3+:5I7 to pr^3+:3F2 level is 87.53% for Ho^3+/pr^3+ (1.02%/0.22%) co-doped sample. Our results suggest that the Ho^3+/pr^3+ co-doped LiYF4 single crystals may have potential applications in mid-IR lasers.
关 键 词:纳米晶体 共掺杂 排放 中红外激光器 LiYF4晶体 兴奋 荧光寿命 偶极相互作用
分 类 号:TN248[电子电信—物理电子学] TB383[一般工业技术—材料科学与工程]
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