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文章用提拉法生长出Li6Gd(BO3)3:Ce晶体,并对其光谱性能与发光过程进行了探索. 借助于真空紫外-紫外透过光谱测试,发现晶体的透过光谱中存在Ce3+离子和Gd3+的特征吸收峰,同时还存在与Ce4+离子相关的电荷迁移带. 对晶体的真空紫外-紫外激发发射光谱进行研究发现,在晶体存在着Ce3+离子的5d4f辐射跃迁发光与Gd3+离子的4f4f辐射跃迁发光,而且存在着Gd3+Ce3+之间的能量传递. 对Li6Gd(BO3)3:Ce晶体的X射线与射线激发发射光谱研究可知,晶体在高能射线激发下的闪烁光主要是Ce3+离子的发光.
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关键词:
- Li6Gd(BO3)3:Ce晶体 /
- 真空紫外-紫外透过光谱 /
- 真空紫外-紫外激发发射光谱 /
- 能量传递
Colorless and transparent Li6Gd(BO3)3:Ce crystals are grown with the Czoralski method. Their optical characteristics and luminescence processes are also investigated. The ultraviolet-vaccum ultraviolet (UV-VUV) transmittance spectra are measured and the result shows that absorption peaks due to Ce3+ ions and Gd3+ ions, and the absorption band related to charge transfer band of Ce4+ ions are present. According to the UV-VUV excitation and emission spectra, it is found that there appear luminescences of 5d4f radiative transitions of Ce3+ ions and of 4f4f radiative transitions of Gd3+ ions, and also Gd3+Ce3+ energy transfer. The X-ray and -ray stimulated luminescence spectra show that the scintillation light of the crystal is mainly from Ce3+ ions.-
Keywords:
- Li6Gd(BO3)3:Ce crystal /
- ultraviolet-vaccum ultraviolet transmittance spectrum /
- excitation and emission spectrum /
- energy transfer
[1] Kouzes R T, Ely J H, Erikson L E, Kernan W J, Lintereur A T, Siciliano E R, Stephens D L, Stromswold D C, Van Ginhoven R M, Woodring M L 2010 Nucl. Instrum. Methods A 623 1035
[2] Kouzes R T The 3He supply problem, Technical Rpt. PNNL-18388, Pacific Northwest National Laboratory, Richland, WA 2009
[3] Lanakiev K D, Swinhoe M T, Favalli A, Chung K, Macarthur D W 2010 Nucl. Instrum. Methods A 623 1035
[4] van Eijk C W E 2001 Nucl. Instrum. Methods A 460 1
[5] van Eijk C W E 2004 Radiat Protect Dosim 110 337
[6] Shekhovtsov A N, Tolmachev A V, Dubovik M F, Dolzhenkova E F, Korshikova T I, Grinyov B V, Baumer V N, Zelenskaya O V 2002 J. Cryst Growth. 242 167
[7] Chaminade O V J P, Guillen F, Fouassier C, Czirr B 2001 IEEE Trans. Nucl. Sci. 48 1158
[8] Ogorodnikov I N, Poryvay N E, Pustovarov V A, Tolmachev A V, Yavetskiy R P, Yakovlev V Y 2010 Radiat. Measurements 45 336
[9] Pan S K, Yang F, Ding D Z, Lu S, Ren G H 2010 IEEE Trans. Nucl. Sci. 57 1300
[10] Yang F, Pan S K, Ding D Z, Chen X F, Lu S, Zhang W D, Ren G H 2009 J. Alloys Compd. 484 837
[11] Brenier A, Yoshikawa A, Lebbou K, Jouini A, Aloui-Lebbou O, Boulon G, Fukuda T 2007 J. Lumin. 12 547
[12] Dubovik M F, Gayduk O V, Grynyov B V 2004 Funct. Mater. 11 247
[13] Yavetskiy R P 2004 Tech. Phys. Lett. 30 976
[14] Ebendorff-Heidepriem H, Ehrt D 2000 Opt. Mater. 15 7
[15] Mou Z F, Wang Y H, Hu Y H, Wu H Y, Deng L Y, Xie W, Fu C J, Liao C X 2011 Acta Phys. Sin. 60 013201 (in Chinese) [牟中飞、王银海、胡义华、吴浩怡、邓柳咏、谢 伟、付楚君、廖臣兴 2011 60 013201]
[16] Ogorodnikov I N , Pustovarov V A, Omel'kov S I, Tolmachev A V, Yavetskii R P 2007 Opt. Spectrosc. 102 60
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[1] Kouzes R T, Ely J H, Erikson L E, Kernan W J, Lintereur A T, Siciliano E R, Stephens D L, Stromswold D C, Van Ginhoven R M, Woodring M L 2010 Nucl. Instrum. Methods A 623 1035
[2] Kouzes R T The 3He supply problem, Technical Rpt. PNNL-18388, Pacific Northwest National Laboratory, Richland, WA 2009
[3] Lanakiev K D, Swinhoe M T, Favalli A, Chung K, Macarthur D W 2010 Nucl. Instrum. Methods A 623 1035
[4] van Eijk C W E 2001 Nucl. Instrum. Methods A 460 1
[5] van Eijk C W E 2004 Radiat Protect Dosim 110 337
[6] Shekhovtsov A N, Tolmachev A V, Dubovik M F, Dolzhenkova E F, Korshikova T I, Grinyov B V, Baumer V N, Zelenskaya O V 2002 J. Cryst Growth. 242 167
[7] Chaminade O V J P, Guillen F, Fouassier C, Czirr B 2001 IEEE Trans. Nucl. Sci. 48 1158
[8] Ogorodnikov I N, Poryvay N E, Pustovarov V A, Tolmachev A V, Yavetskiy R P, Yakovlev V Y 2010 Radiat. Measurements 45 336
[9] Pan S K, Yang F, Ding D Z, Lu S, Ren G H 2010 IEEE Trans. Nucl. Sci. 57 1300
[10] Yang F, Pan S K, Ding D Z, Chen X F, Lu S, Zhang W D, Ren G H 2009 J. Alloys Compd. 484 837
[11] Brenier A, Yoshikawa A, Lebbou K, Jouini A, Aloui-Lebbou O, Boulon G, Fukuda T 2007 J. Lumin. 12 547
[12] Dubovik M F, Gayduk O V, Grynyov B V 2004 Funct. Mater. 11 247
[13] Yavetskiy R P 2004 Tech. Phys. Lett. 30 976
[14] Ebendorff-Heidepriem H, Ehrt D 2000 Opt. Mater. 15 7
[15] Mou Z F, Wang Y H, Hu Y H, Wu H Y, Deng L Y, Xie W, Fu C J, Liao C X 2011 Acta Phys. Sin. 60 013201 (in Chinese) [牟中飞、王银海、胡义华、吴浩怡、邓柳咏、谢 伟、付楚君、廖臣兴 2011 60 013201]
[16] Ogorodnikov I N , Pustovarov V A, Omel'kov S I, Tolmachev A V, Yavetskii R P 2007 Opt. Spectrosc. 102 60
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