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.
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
