Optical and Scintillation Properties of CsCaCl3-Based Crystals

放射发光 闪烁 闪烁体 发光 光电倍增管 材料科学 光致发光 激发态 分析化学(期刊) 光子 光学 物理 原子物理学 光电子学 化学 探测器 色谱法
作者
Keiichiro Saeki,Yutaka Fujimoto,Masanori Koshimizu,Takayuki Yanagida,Hironori Tanaka,Keisuke Asai
出处
期刊:Meeting abstracts [Institute of Physics]
卷期号:MA2016-02 (42): 3160-3160
标识
DOI:10.1149/ma2016-02/42/3160
摘要

A scintillation detector is composed of a scintillator, which converts absorbed ionizing radiation into multiple low energy (~eV) photons, and a photomultiplier tube (PMT), avalanche photodiode, or Si-PMT, which can convert the photons into an electrical signal. The performance of the scintillation detector depends greatly on the characteristics of the scintillator. Inorganic scintillators are widely used for detecting high-energy photons such as X-rays and gamma-rays. Eu-doped CsCaCl 3 has been reported to display excellent properties because of the 4f 6 5d 1 –4f 7 transitions of Eu 2+ [1]. CsCaCl 3 :Eu exhibits a 4f 6 5d 1 –4f 7 luminescence peak at 450 nm , with a high light yield (18,000 photons/MeV). Further, undoped CsCaCl 3 is known to have a small scintillation decay time constant because of their Auger-free luminescence [2]. In this study, CsCaCl 3 is used as the host material and luminescence and scintillation properties of CsCaCl 3 crystals doped with impurity ions such as Yb and Tl are investigated. Photoluminescence spectra, X-ray-excited radioluminescence spectra, scintillation temporal profiles, and pulse-height spectra (with 662 keV gamma-ray excitation from 137 Cs) of the crystals are analyzed. Single crystals of Yb- and Tl-doped CsCaCl 3 were prepared with the vertical Bridgman–Stockbarger method using a sealed quartz tube. Before crystal growth, stoichiometric mixtures of CsCl and CaCl 2 were dried by heating overnight ~500 K in a vacuum. After growth, the crystals were cut and polished. The Figure shows the X-ray-excited radioluminescence spectra, measured at 300 K, for Yb- and Tl-doped CsCaCl 3 crystals. In the spectrum of CsCaCl 3 :Yb, an intense emission band was observed at 437 nm with a shoulder at 409 nm. The emission band in the radioluminescence spectrum is consistent with that at 439 nm, with a shoulder at 409 nm, in the photoluminescence spectrum. As these emission bands have similarities with emission bands of a SrI 2 :Yb 2+ crystal, the emission bands of the CsCaCl 3 :Yb crystal are attributed to spin-allowed and spin-forbidden Yb 2+ 4f 13 5d–4f 14 transitions. In the spectrum of CsCaCl 3 :Tl, an emission band observed at 327 nm is similar to that at 336 nm in the photoluminescence spectrum. In a previous study of CsCl:Tl, an emission band at 340 nm is attributed to the triplet relaxed excited state of a Tl + ion [3]. Thus, the emission band at 327 nm can be attributed to the same state. The pulse- height spectra of these crystals were measured with 662 keV gamma-ray excitation from 137 Cs. Assuming a light yield of 40,000 photons/MeV for NaI:Tl [4], the light yield is estimated to be 3,800 and 4,300 photons/MeV for CsCaCl 3 :Yb and CsCaCl 3 :Tl, respectively. The lower light yields for these crystals can be attributed to the lower concentration of impurity ions. Thus, the light yields of these crystals can be improved by increasing the concentration of impurity ions. [1] M. Zhuravleva, B. Blalock, K. Yang, M. Koschan, and C. L. Melcher, J. Cryst. Growth 352 , 115 (2012). [2] M. Koshimizu, N. Yahaba, R. Haruki, F. Nishikido, S. Kishimoto, and K. Asai, Opt. Mater. 36 , 1930 (2014). [3] V. Nagirnyi S. Zazubovich, and N. Jaanson, Phys. Stat. sol. 175 , (1993) 155. Figure 1

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