Review

Anti-site Defects in YAG and LuAG Crystals

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  • (Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, China)

Received date: 2009-11-04

  Revised date: 2010-03-05

  Online published: 2010-07-19

Abstract

YAG is not only one of the most important solid laser crystals, but also a promising scintillation material. Since it comes out, the studies of defects in YAG crystal have played key roles on the improvement and development of crystal properties. As a special kind of defect in the YAG and LuAG crystals, anti-site defects exert crucial influence on the carrier transportation and other properties. In this paper, the type and the origin of the anti-site defects in the YAG and LuAG crystals, as well as the mechanism of their effects on the crystal properties are described. Also, how to detect and inhibit the anti-site defects in the YAG and LuAG crystals are discussed.

Cite this article

FENG Xi-Qi . Anti-site Defects in YAG and LuAG Crystals[J]. Journal of Inorganic Materials, 2010 , 25(8) : 785 -794 . DOI: 10.3724/SP.J.1077.2010.00785

References

[1]Danielmeyer H G, Ostermayer F W. Diode-pump-modulated Nd: YAG laser.J. Appl. Phys,1972, 43(6):2911-2913
[2]Cockayne B. Non-uniform impurity distribution in YAG crystals.Phil. Mag,1965, 12(119):943-950
[3]Cockayne B. Development in melt-grown oxide crystals.J. Cryst. Growth,1968, 3-4:60-70
[4]Basterfield J, Prescott M J, Cockayne B, et al. An X-ray diffraction topographic study of single crystals of melt-grown yttrium aluminium garnet.J. Mat. Sci,1968, 3(1):33-40
[5]Wilcox W R. The influence of a temperature gradient on crystal faceting.J. Cryst. Growth,1970, 7(2):203-208
[6]Bass B, Paladino A E. Color center in YGG and YAG.J. Appl. Phys,1967, 38(6):2706-2711
[7]Willis J B, Dixon M. Assessment and control of imperfections in crystals for laser devices.J. Cryst. Growth,1968, 3-4:236-240
[8]颜声辉, 钟永成, 方佩莹, 等. YAG晶体的γ射线辐照和退火效应. 人工晶体学报, 1990, 19(4): 331-335.
[9]Cockayne B, Gates M P. Growth striations in vertically pulled oxide and fluorides crystals.J. Mat. Sci,1967, 2(2):118-123
[10]Moriya K, Ogawa T. Observation of growth defect in quartz by light-scattering tomography.J. Cryst. Growth,1978, 44(1):53-60
[11]邓佩珍, 张守都, 等(DENG Pei-Zhen, et al). YAG晶体位错研究. 硅酸盐学报(Jounal of the Chinese Ceramic Society), 1978, 7(3): 183-187.
[12]邓佩珍, 乔景文, 等. YAG晶体中位错对激光性能的影响. 光学学报, 1982, 2(3): 259-263.
[13]Eakins D E, Held M, Norton M G, et al. A study of fracture and defects in YAG crystal.J. Cryst. Growth,2004, 267(3/4):502-509
[14]Yang Peizhi, Deng Peizhen, Yin Zhiwen, et al. The growth defects in czochralski-grown Yb:YAG.J. Cryst. Growth,2000, 218(1):87-92
[15]Katsurayama M, Anzai Y, Sugiyama A, et al. Growth of Nd:YAGcrystals by double crucible method.J. Cryst. Growth,2001, 229(1-4):193-198
[16]Matkovskii A, Sugak D, Melnyk S, et al. Color center in doped GGG and YAG laser crystals.J. Alloys Compd,2000, 300-301:395-397
[17]Jiang Chengyong, Zhou Guoqing, Xu Jun, et al.γ-rays and excimer laser irradiation effect on YAG crystals.J. Cryst. Growth,2003, 257(3):301-304
[18]Dong Y, Zhou G, Xu J, et al. Color centers and charge state change in Ce:YAG.J. Cryst. Growth,2006, 286(2):476-480
[19]Geller S, Espinosa G P, Fullmer L D, et al. Thermal expansion of some garnet.Mat. Res. Bull,1972, 7(11):1219-1224
[20]Voronko Yu K, Sobol A A. Local inhomogeneity of garnet crystal doped with rare-earth ions.Phys. Sta. Sol. A,1975, 27:657-663
[21]Kuklja M M. Defects in yttrium alminium perovskite and garnet crystals: atomistic study.J. Phys.:Cond. Matt,2000, 12(13):2953-2967
[22]Patel A P, Levy M R, Grimes R W, et al. Mechanisms of nonstoichoimetry in Y3Al5O12.Appl. Phys. Lett,2008, 93(19):191902-1
[23]陆学善. 激光基质钇铝石榴石的发展. 北京: 科学出版社, 1972.
[24]Ashurov M Kh, Voronko Yu, Osiko V V, et al. Spectroscopy study of stoichoimetry deviation in garnet crystals.Phys. Sta. Sol. A,1977, 42(2):101-110
[25]Lupei A, Stoicescu C, Lupei V, et al. X-ray and spectral charaterization of defects in garnets.J. Cryst. Growth,1997, 177(2):207-210
[26]Rogobete L, Lupei A, Lupei V, et al. Inhomogeneous broading by defects of Re3+ opcial lines in YAG.Proc. of SPIE,2001, 4430:97-107
[27]陆坤权, 董 均. 石榴石晶体结构的非立方对称. 人工晶体学报, 1991, 20(Z1): 390.
[28]Dong J, Lu K. Noncubic symmetry ingarnet structures studied using EXAF spectra.Phys. Rev. B,1991, 43(11):8808-8821
[29]Landron C, Lefloch S, Gervais M, et al. Yttrium coordination shell in YAG related structures.Phys. Sta. Sol. B,1996, 196(1):25-30
[30]Paton M G, Malsen E N. A refinement of the crystal structure of yttria.Acta Cryst,1965, 19(2):307-310
[31]Donnerberg H, Catlow C R A. Atomistic compucter simulation of YIG as an approach to defect chemictry.J. Phys.:Cond. Matt,1993, 5(18):2947-2960
[32]Milanese C, Buscag

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