光谱学与光谱分析 |
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Cooperative Luminescence in Yb:YAG Crystals |
MAO Yan-li1,DING Fei1,WANG Chang-shun1,DENG Pei-zhen2,GAN Fu-xi2 |
1.College of Physics and Information Optoelectronics, Henan University, Kaifeng 475001, China 2.Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China |
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Abstract Cooperative luminescence phenomenon of Yb:YAG crystals was studied.Up-converted blue luminescence was obviously observed in Yb:YAG under excitation in the near-infrared region with a wavelength 940 nm.Experimental evidence was provided by the fact that the intensity of 498 nm luminescence shows a quadratic dependence on excitation power, and the intensity of blue luminescence increased with the increase in Yb ion concentration.It is concluded that this luminescence is due to a cooperative process resulting from a strong interaction of Yb ions.The cooperative luminescence is possiblely assigned to the strong interaction of 4f13 electrons and neighboring Yb3+ ions in a covalent host lattice such as YAG.Theoretical cooperative luminescence spectrum was calculated.
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Received: 2004-09-18
Accepted: 2004-12-26
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Corresponding Authors:
MAO Yan-li
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[1] Krupke W F,Opin Curr.Solid State Mater.Sci., 1999, 4: 197. [2] Honea E C, Beach R J, Mitchell S C, et al.Opt.Lett., 2000, 25: 805. [3] Sumida D S, Bruesselbach H, Byren R W,et al.Pro.SPIE, 1998, 3265: 100. [4] Fan T Y, Klunk S, Henein G.Opt.Lett., 1993, 18(6): 423. [5] Eiichiro Nakazawa,Shigeo Shionoya.Phys.Rev.Lett., 1970, 25(25): 1710. [6] Magne S, Ouerdane Y, Druetta M, et al.Opt.Commun.,1994, 111: 310. [7] Goldner Ph, Pellé F, Auzel F.Journal of Luminescence, 1997, 72-74: 901. [8] TU Zhao-yang, LI Jian-fu, ZHU Zhao-jie,LIN Jian-ming(涂朝阳,李坚富,朱昭捷,林建明).Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2003, 23(3): 438. [9] Ellens A, Andre H, Heerdt M L H ter, et al.Journal of Luminescence, 1996, 66-67: 240. [10] Malinowski M, Kaczkan M, Piramidowicz R, et al.Journal of Luminescence, 2001, 94-95: 29. [11] Wegh R T, Meijerink A.Chemical Physics Letters,1995, 246: 495. [12] Montoya E, Espeso O, Bausá L E.Journal of Luminescence, 2000, 87-89: 1036.
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