-
In order to explore and develop new crystal materials in the 2.7~3 μm band, Pr,Yb,Ho:GdScO3 crystal were successfully grown by the Czochralski method for the first time. X-ray diffraction measurement was performed to obtain powder diffraction data. Raman spectra were measured and the vibration peaks were identified. The transmission spectrum, emission spectrum and fluorescence lifetime of Pr,Yb,Ho:GdScO3 crystal were also characterized. The center of the strongest absorption band is at 966 nm with the half-peak width 90 nm, which comes from the transition of Yb3+: 2F7/2→2F5/2. The absorption cross section of Yb3+ were calculated and the values at 966、973、985 nm are 0.62×10-20, 0.60×10-20 and 0.58×10-20 cm2respectively. The maximum emission peak is at 2850 nm and the half-peak width is 70 nm, the lifetimes of Ho3+:5I6 and 5I7 were measured to be 1094 μs and 56 μs respectively, and the emission cross section at 2850 and 2935 nm were calculated to be 3.6×10-20cm2 and 1.21×10-20 cm2. Compared with Yb,Ho:GdScO3 crystal, the absorption peak of Yb3+ and the emission peak were both broadened, which are related to the increase of crystal disorder. The lifetime of the lower energy level decreases significantly. Furthermore, the energy transfer mechanism between Ho3+ and Pr3+ was analyzed, and the energy transfer efficiency between Ho3+:5I7 and Pr3+:3F2+3H6 was calculated to be 99%, which is higher than that in other materials. All the results show that Pr,Yb,Ho:GdScO3 crystal is an excellent 2.7~3 μm laser material, and is easier to achieve laser output than Yb,Ho:GdScO3 crystal.
-
Keywords:
- 2.7~3 μm laser /
- Pr,Yb,Ho:GdScO3 crystal /
- Crystal growth /
- Optical properties /
- /
-
[1] Hu D, Dong J, Tian J, Wang W D, Wang Q G, Xue Y Y, Xu X D, Xu J 2021 J. Lumin. 238 118243
[2] Arsrnev P, Binert K, Svirridova R. 1972 Phys. Status Solidi 9 103
[3] Yamaji A, Kochurikhin V, Fujimoto Y, Futami Y, Yanagida T, Yokota Y, Kurosawa S, Yoshikawa A 2012 Phys. Status Solidi C 9 2267
[4] Peng F, Liu W P, Luo J Q, Sun D L, Sun G H, Zhang D M, Wang X 2018 CrystEngComm 20 6291
[5] Hou W T, Zhao H Y, Qin Z P, Liu J, Wang D H, Xue Y Y, Wang Q G, Xie G Q, Xu X D, Xu J 2020 Opt. Mater. Express 10(11) 2730
[6] Li S M, Fang Q N, Zhang Y H, Tao S L, Zhang J X, Quan C, Sun D L, Zhao C C, Hang Y 2021 Opt. Laser Technol. 143 107345
[7] Li J H, Sun G H, Zhang Q L,Wang X F, Zhang D M, Liu W P, Gao J Y, Zheng L L, Han S, Chen Z, Yin S T 2022 Acta Phys. Sin-ch Ed 71(16) 164206 (in Chinese) [李加红,孙贵花,张庆礼,王小飞,张德明, 刘文鹏, 高进云,郑丽丽,韩松,陈照,殷绍唐 2022 71(16) 164206]
[8] Sun G H, Zhang Q L, Li J H, Luo J Q, Wang X F, Gao J Y 2023 J. synth. Cryst. 52(7) 104 (in Chinese) [孙贵花,张庆礼,李加红,罗建乔,王小飞,高进云 2023 人工晶体学报 52(7) 104]
[9] He Y, Dou R Q, Zhang H T, Liu W P, Zhang Q L, Chen Y Y, Gao Y X, Luo J Q 2020 Infrared and Laser Engineering 49(12) 20201067
[10] Zhang H L, Sun X J, Luo J Q, Fang Z Q, Zhao X Y, Cheng M J, Zhang Q L, Sun D L 2016 J. Alloy. Compod. 672 223
[11] Zhang H L, Sun D L, Luo J Q, Peng F, Fang Z Q, Zhao X Y, Quan C, Cheng M J, Zhang Q L, Yin S T 2018 J. Lumin.194 636
[12] Peng J T, Xia H P, Wang P Y, Hu H Y, Tang L, Zhang Y P, Jiang H C, Chen B J 2013 Optoelectron. Lett. 9 362
[13] Zhu J, Dai S X, Wang X S, Shen X, Xu T F, Nie Q H 2010 Acta Phys. Sin-ch Ed 59(8) 5803 (in Chinese) [朱军,戴世勋,王训四,沈祥,徐铁峰,聂秋华 2010 物 理学报 59(8) 5803]
[14] Ronald W Stites, Thomas R Harris 2016 Proc. of SPIE 9726 97261O-1
[15] Chaix-Pluchery O, Sauer Dand Kreisel J 2010 J. Phys.: Condens. Mat. 22 165901
[16] LI S, FANG Q, ZHANG Y, et al. 2021 Opt. Laser Technol. 143 107345
[17] Chaix-Pluchery O, Sauer Dand Kreisel J. 2010 J. Phys.: Condens. Matter 22 165901
[18] Wang Y, Li J F, You Z Y, Zhu Z J, Tu C Y 2010 J. Alloy. Compod. 502 184
[19] Zhang Y, Huang F F, Liu L W, Liu X Q, Zheng S P, Chen D P 2016 Mater. Lett. 167 1
[20] AMANYAN S N, ARSEN’EV P A, BAGDASAROV Kh S 1983 Plenum Publishing Corporation 38(3) 344
[21] Li J H, Zhang Q L, Sun G H, Gao J Y, Wang X F, Dou R Q, Ding S J, Zhang D M, Liu W P, Luo J Q, Sun Y 2022 Chinese J. Lumin. 43(11) 1779 [李加红,张庆礼,孙贵花,高进云,王小飞,窦仁勤,丁守军,张德明,刘文鹏,罗建乔,孙 彧 2022 发光学报 43(11) 1779]
[22] Yan W L,Sun Y J, Wang Z Y, Wang W, Fang S S, Huang Y X, Wang Y Q, Tu C Y, Wen H R 2021 J. Lumin. 236 118067
Metrics
- Abstract views: 1024
- PDF Downloads: 14
- Cited By: 0