Research Paper

Preparation and Spectroscopic Properties of Yb:YAG Glass-ceramics

  • ZHANG Yue-Pin ,
  • XIA Hai-Ping ,
  • ZHANG Xin-Min ,
  • WANG Jin-Hao ,
  • JIANG Chun
Expand
  • (1. Laboratory of Photo-Electronic Material, Ningbo University, Ningbo 315211, China; 2. Department of Electronic Science and Technology, Shanghai Jiaotong University, Shanghai 200030, China)

Received date: 2005-12-12

  Revised date: 2006-03-17

  Online published: 2006-11-20

Abstract

The Yb 3+ -doped 32CaO-12Y2O3-24Al2O3-31SiO2-1Yb2O3glasses were prepared by a melting method, then the glasses were annealed at 950C, 1050C and 1100C. The crystallographic structures of the glasses annealed at different temperatures were analyzed by XRD, the glass annealed at 1050℃ was observed by TEM. The spectroscopic properties of the glass before and after annealing were investigated. The results show that the glass annealed at 1050℃is YAG glass-ceramics with no impurity crystalline phase. The spectroscopic properties indicate that Yb3+ ions are preferentially entered into the YAG crystal phase. The transparent Yb:YAG glass-ceramics obtained are based on the controlled nucleation and crystallization of CaO-Y2O3-Al2O3-SiO2 system glasses containing Yb 3+ ions.

Cite this article

ZHANG Yue-Pin , XIA Hai-Ping , ZHANG Xin-Min , WANG Jin-Hao , JIANG Chun . Preparation and Spectroscopic Properties of Yb:YAG Glass-ceramics[J]. Journal of Inorganic Materials, 2006 , 21(6) : 1307 -1312 . DOI: 10.3724/SP.J.1077.2006.01307

References

[1] 邱宏伟, 毛艳丽, 董俊, 等(Qiu Hong-Wei, et al). 量子电子学报(Chinese Journal of Quantum Electronics), 2002, 19 (1): 1--6.
[2] 尹红兵, 邓佩珍, 张俊洲, 等(Yin Hong-Bin, et al). 光学学报(Acta Optica Sinica), 1997, 17 (2): 227--230.
[3] 王介强, 陶文宏, 高新睿, 等(WANG Jie-Qiang, et al). 无机材料学报(Journal of Inorganic Materials), 2005, 20 (5): 1037--1042.
[4] 李霞, 刘宏, 王继扬, 等(Li Xia, et al). 无机材料学报(Journal of Inorganic Materials), 2004, 19 (5): 1068--1172.
[5] 徐晓东, 赵志伟, 宋平新, 等(Xu Xiao-Dong, et al). 光子学报(Acta Photonica Sinica), 2004, 33 (6): 697--699.
[6] Lacovara P, Chai H K, Wang C A, et al. Opt. Letters, 1991, 16: 1089--1091.
[7] Fan T Y. IEEE J Quantum Electron, 1993, 29: 1457--1459.
[8] 姜淳, 曾庆济, 张俊洲, 等(Jiang Chun, et al). 自然科学进展(Progress in Natural Science), 2000, 10 (12): 1066--1071.
[9] 胡安民, 梁开明, 周锋, 等(HU An-Min, et al). 无机材料学报(Journal of Inorganic Materials), 2005, 20 (2): 277--284.
[10] 张光寅, 赵丽娟, 侯延冰, 等(Zhang Guang-Yin). 科学通报(Chinese Science Bulletin), 1999, 44 (23): 2489--2492.
[11] Braglia M, Bruschi C, Dai G, et al. J. Non-Cryst. Solids, 1999, 256 & 257: 170--175.
[12] Wang Y, Ohwaki J. Appl. Phys. Lett., 1993, 63 (24): 3268--3270.
[13] Tick P A, Borrelli N F, Reaney I M. Optical Materials, 2000, 15: 81--91.
[14] Samson B N, Tick P A, Borrelli N F. Optics Letters, 2001, 26 (3): 145--147.
[15] Tick P A. Optics Letters, 1998, 23 (24): 1904--1905.
[16] Bruesselblach H W, Sumida D, Reedeer R A, et al. Quantum Electronics, 1997, 3: 105--115.

Outlines

/