光学
闪烁
材料科学
产量(工程)
Crystal(编程语言)
硅酸盐
光纤
纤维
物理
探测器
计算机科学
天文
冶金
复合材料
程序设计语言
作者
Lu Huang,Xin Wu,Zhenshuai Wei,Shaojie Men,Zhigang Zhao,Xian Zhao,Zhenhua Cong,Zhaojun Liu
出处
期刊:Optics Express
[Optica Publishing Group]
日期:2025-05-13
卷期号:33 (11): 23388-23388
摘要
A Pr:YAG crystal-derived scintillation fiber (PCSF) with fast decay time and high optical yield was prepared using the melt-in-tube method. The PCSF consists of a SiO 2 cladding and a core of yttrium aluminosilicate glass with 1.8 wt%. Pr 2 O 3 . The PCSF exhibits excellent compatibility with commercial quartz fibers, achieving a low average insertion loss of 0.015 dB. Due to the fast 5d-4f transition of Pr 3+ , the PCSF shows a fast decay time of 11.6 ns at 359 nm. As an X-ray dosimeter, the PCSF exhibits high stability in its radioluminescence (RL) intensity and maintains a strong linear response under X-ray excitation. Compared to conventional silicate fibers, the PCSF has a higher effective atomic number (Z eff ) and mass attenuation coefficient, enabling more efficient X-ray absorption. Furthermore, a flexible fiber radiation detector based on PCSF was demonstrated, enabling low-dose-rate X-ray detection in the range of 1.13 to 30.74 μGy/s with excellent linear response (R 2 =0.999). Additionally, the PCSFs-based detector can distinguish X-rays of varying energies within the voltage range of 40-120 kV. These features make the proposed PCSF highly promising for real-time, fast-event X-ray detection in low-dose-rate applications.
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