Properties of luminescence and scintillation of Eu-doped high gadolinium glass

Tang Chun-Mei; Shen Ying-Long; Sheng Qiu-Chun; Liu Shuang; Li Wen-Tao; Wang Long-Fei; Chen Dan-Ping

doi:10.7498/aps.62.247804

Abstract

Eu (1 wt%) doped 15SiO2-25B2O3-30Al2O3-30Gd2O3 oxide glasses are prepared by high-temperature melt-quenching method in air and reduced atmosphere, respectively. The properties of scintillation and photoluminescence of the two samples are compared. When the samples fabricated in reduced atmosphere are excited by the X-ray and 395 nm violet light, a 450–550 nm blue-green light beam from Eu2+ and a 615 nm red light beam from Eu3+ are obtained. The intensity ratios between Eu3+ and Eu2+ are obviously different under different excitation sources. The intensity ratio under the excitation of the 395 nm violet light is 0.02 while it increases to 1.37 under the X-ray excitation. By analyzing the phonon sideband spectra of the samples, it is found that the Eu3+ ions around the former of Si are completely reduced into Eu2+ ions, while only part of Eu3+ ions around the former of B and Al are reduced into Eu2+ ions. Further investigation about the scintillation mechanism indicates that the sensitization of Gd and the energy transfer of Eu2+→Eu3+ near the formers of B and Al increase the scintillation performances of Eu3+ ions in the reduced glass samples.

Keywords:

Authors and contacts

1.
Research and Development Center of High Power Laser Components, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China;
2.
University of Chinese Academy of Sciences, Beijing 100049, China;
3.
Shanghai Institute for Science of Science, Shanghai 200235, China
Funds: Project supported by the National Natural Science Foundation of China (Grant No. 51272262).

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Cited By

[1]	Chen G R, Baccaro S, Du Y J 2000 Bull. Chin. Ceramic Soc. 5 48 (in Chinese) [陈国荣, Baccaro S, 杜永娟 2000 硅酸盐通报 5 48]
[2]	Fu J, Parker J M, Brown R M, Flower P S 2003 J. Non-cryst. Solids 326–327 335
[3]	Chewpraditkul W, He X, Chen D, Shen Y, Sheng Q, Yu B, Nikl M, Kucerkova R, Beilerova A, Wanarak C, Phunpueok A 2011 Phys. Status Solidi A 208 2830
[4]	Chen D P, Miyoshi M, Akai T, Tetsuo Y 2005 Appl. Phys. Lett. 86 231908
[5]	Liu Z J, Yang L Y, Dai N L, Li J Y 2010 Acta Phys. Sin. 60 047806 (in Chinese) [刘自军, 杨旅云, 戴能利, 李进延 2010 60 047806]
[6]	Wang S X, Zhang Y P, Xu B, Xia H P 2012 Opt. Tech. 38 64 (in Chinese) [王实现, 张约品, 徐波, 夏海平 2012 光学技术 38 64]
[7]	Fu J, Kobayashi M, Sugimoto S, Parker J M 2008 Mater. Res. Bull. 43 1502
[8]	Chewpraditkul W, Chen D P, Yu B, Zhang Q, Shen Y, Nikl M, Kucerkova R, Beitlerova A, Wanarak C, Phunpueok A 2011 Phys. Status Solidi R 5 40
[9]	Tanabe S, Todoroki S, Hirao K, Saoga N 1990 J. Non-cryst. Solids 122 59
[10]	Li H, Peng Z G, Qi J 2010 J. Wuhan Univ. Technol. 32 36 (in Chinese) [李宏, 彭志钢, 戚杰 2010 武汉理工大学学报 32 36]
[11]	Kishimoto Y, Zhang X T, Hayakawa T, Nogami M 2009 J. Lumin. 129 1055
[12]	Liu Z J, Chen Q Q, Dai N L, Yu Y, Yang L Y, Li J Y 2012 J. Non-cryst. Solids 358 3289
[13]	Shen Y L, Tang C M, Sheng Q C, Liu S, Li W T, Wang L F, Chen D P 2013 Acta Phys. Sin. 62 117803 (in Chinese) [沈应龙, 唐春梅, 盛秋春, 刘双, 李文涛, 王龙飞, 陈丹平 2013 62 117803]
[14]	Shen Y L, Zhang Q, Cheng J M, Sheng Q C, Liu S, Li W T, Chewpraditkuld W, Chen D P 2013 Mater. Lett. 97 151
[15]	Arunkumar S, Marimuthu K 2013 J. Lumin. 139 6
[16]	Masayuki N, Tsukasa Y, Yoshihiro A 1998 J. Lumin. 78 63
[17]	Sun J Y, Du H Y, Hu W X 2003 Solid Luminescent Materials (Beijing: Chemical Industry Press) p472 (in Chinese) [孙家跃, 杜海燕, 胡文祥 2003 固体发光材料 (北京: 化学工业出版社)第472页]
[18]	Cheng J J, Zhang G L, Bi C H 1979 J. Chin. Ceramic Soc. 7 244 (in Chinese) [程继健, 张关林, 毕昌华 1979 硅酸盐学报 7 244]
[19]	Sun T, Xiao H N, Guo W M, Hong X C 2010 Ceram. Int. 36 821
[20]	Zeng H D, Yang Y F, Lin Z Y, Liang X L, Yuan S L, Chen G R, Sun L Y 2011 J. Non-cryst. Solids 357 2328
[21]	Chen D, Miyoshi H, Akai T, Yazawa T 2006 Waste Manage. 26 1017
[22]	Shen Y L 2013 Ph. D. Dissertation (Shanghai: Shanghai Institute of Optics and Fine Mechanics Chinese Academy of Science) (in Chinese) [沈应龙 2013 博士学位论文(上海: 中国科学院上海光学精密机械研究所)]

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Vol. 62, Issue 24 - 2013-12-20

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