掺铈铝酸钇闪烁晶体自吸收问题研究

研究了掺铈铝酸钇(Ce:YAP)晶体的自吸收机理以提高其光产额等闪烁性能。用提拉法生长了不同掺杂摩尔分数的Ce:YAP闪烁晶体。室温下测试了不同厚度、不同摩尔分数和不同退火条件下Ce:YAP晶体的透过、荧光、X射线激发发射等光谱特征,并对可能存在的自吸收机理进行了分析。结果表明,Ce:YAP晶体的自吸收主要由Ce4+离子与氧离子配体之间的电荷转移吸收引起,根据电荷转移吸收理论可得其吸收峰在303 nm左右,与实验结果基本一致。本实验表明通过一定的退火工艺和掺杂控制减少Ce4+离子,将能有效地使样品的吸收边蓝移,从而减少Ce:YAP晶体的自吸收,提高闪烁性能。

Abstract

The mechanism of self-absorption of Ce:YAP crystals which are grown by Czochralski method is investigated in this paper. Samples with different thickness,concentration and annealing condition are prepared and the corresponding transmittance spectra,photoluminescence and X-ray excited luminescence are measured at room temperature. The mechanism of self-absorption of Ce:YAP crystals is studied and the results show that the self-absorption band peaking at 303 nm is caused by charge transfer transition of Ce4+ ions. The study indicates that the problem of self-absorption can been resolved by effectively minimizing the concentration of Ce4+ions.

参考文献

[1] 赵广军,徐军. 高光输出快衰减高温无机闪烁晶体的研究与发展[J]. 人工晶体学报,2002,31(3):291-297

G. J. Zhao,J. Xu. Developments of high temperature inorganic scintillation single crystals witll high light output and fast decay time constant[J]. J. Synthetic Crystals,2002,31(3):291-297

[2] 曹顿华,赵广军,宗艳花等. 不同掺杂摩尔分数Ce:YAP闪烁晶体的性能研究[J]. 中国稀土学报,2007,25(4):509-512

D. H. Cao,G. J. Zhao,Y. H. Zong et al.. Investigation on properties of Ce:YAP crystals with different dopant concentration [J]. J. the Chinese Rare Earth Society,2007,25(4):509-512

[3] K. Hirota,H. Toyokawa,M. Suzuki et al.. A YAP(Ce) imager operated in high energy X-ray region[J]. Nucl. Instr. Meth. A,2001,467-468(2):1121-1124

[4] . Klamra,A. Kerek,M. Moszyski et al.. Response of BaF2 and Ce:YAP to heavy ions[J]. Nucl. Instr. Meth. A, 2000, 444(3): 626-630.

[5] . Slunga,B. Cederwall,E. Ideguchi et al.. Scintillation response of BaF2 and YAlO3:Ce (Ce:YAP) to energetic ions[J]. Nucl. Instr. Meth. A, 2001, 469(1): 70-76.

[6] . Baccaro,K. Blazek,F. de Notaristefani. Scintillation properties of Ce:YAP[J]. Nucl. Instr. Meth. Phys. Res. A, 1995, 361(1): 209-215.

[7] . Tardocchi,G. Gorini,A. Pietropaolo et al.. YAP scintillators for resonant detection of epithermal neutrons at pulsed neutron sources[J]. Rev. Sci. Instrum., 2004, 75(11): 4880-4890.

[8] G. S. Li,J. H. Wu,Y. Chen et al.. Growth of high quality Ce3+:YAP and (Ce3++Nd3+):YAP single crystals[J]. Chinese J. Lasers B,1993,2(1):91-96

[9] . J. Weber,M. Bass,K. Andringa. Czochralski growth and properties of YAlO3 laser crystals[J]. Appl. Phys. Lett., 1969, 15(10): 342-345.

[10] 朱江,赵广军,刘德安等. 新型光折变晶体Mn:YAP研究进展[J]. 激光与光电子学进展,2006,43(7):60-63

Zhu Jiang,Zhao Guangjun,Liu De′an et al.. Developments of research on novel Mn:YAP photorefractive crysta[J]. Laser & Optoelectronics Progress,2006,43(7):60-63

[11] . Moszynski,M. Kapusta,D. Wolski et al.. Properties of the Ce:YAP scintillator[J]. Nucl. Instr. Meth. A, 1998, 404(1): 157-165.

[12] M. V. Korzhik,O. V. Misevich,A. A. Fyodorov. YAlO3:Ce scintillators:application for X- and soft-ray detection [J]. Nucl. Instr. And Meth. B,1992,72(3-4):499-501

[13] 王德武,将海音,刘建飞等. 用同步辐射光源研究掺铈对闪烁体发光性质的影响[J]. 光学学报,1997,17(9):1247-1250

Wang Dewu,Jiang Haiyin,Liu Jianfei et al.. Observation of fluorescence properties of cerium doped scintillators in synchrotron radiation source[J]. Acta Optica Sinica,1997,17(9):1247-1250

[14] . A. Noginov,G. B. Loutts. Spectroscopic studies of Mn4+ions in yttrium orthoaluminate[J]. J. Opt. Soc. Am. B, 1999, 16(1): 3-11.

[15] . E. Hoefdraad. Charge-transfer spectra of tetravalent lanthanide ions in oxides[J]. Inorg. Nucl. Chem., 1975, 37(9): 1917-1921.

曹顿华, 刘永建, 赵广军, 陈建玉, 董勤, 丁雨憧. 掺铈铝酸钇闪烁晶体自吸收问题研究[J]. 光学学报, 2009, 29(12): 3463. Cao Dunhua, Li Yongjian, Zhao Guangjun, Chen Jianyu, Dong Qin, Ding Yuchong. Investigation on the Self-Absorption of Ce:YAP Crystals[J]. Acta Optica Sinica, 2009, 29(12): 3463.

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