工业CT光电二极管探测器灵敏度

在工业CT系统设计过程中, 射线能量选择、探测器结构设计、射线源和探测器匹配等方面都涉及探测器灵敏度问题。研究了影响工业CT光电二极管探测器灵敏度的几个主要因素及其定量关系。首先分析了灵敏度的几个主要影响因素：能量沉积率、绝对闪烁效率、光收集效率、光电转换效率。然后采用蒙特卡罗方法仿真得到闪烁体的能量沉积率、光收集效率, 计算了CsI(Tl)闪烁体的荧光转换效率及光电二极管的光电转换效率, 定义了闪烁体与光电二极管的匹配度的概念。最后得出具有普遍意义的探测器灵敏度的表达式, 理论计算值与实际测量结果最大相差20.4%, 实验验证了该灵敏度计算方法的有效性和正确性。

Abstract

Studying on sensitivity of detector has most guiding significance for the selecting of X-ray Energy, the designing of detector and matching between X-ray source and detector. Several major factors of sensitivity and their quantitative relation were studied. First, factors such as energy deposition rate, absolute scintillation efficiency, light collection efficiency and photoelectrical conversion efficiency were analyzed. Then, a simulation for energy deposition rate of scintillation crystal and light collection efficiency was carried out by Monte Carlo method. The fluorescence conversion efficiency of the CsI(Tl) scintillator and the photoelectric conversion efficiency of the photoelectric diode were computed. The concept of matching between the scintillator and the photoelectric diode was defined. Finally, the sensitivity expression with universal meaning of the detector was obtained. The maximum error between theoretical value and practical measurement result is less than 20.4%. The experiments show the validity and the accuracy of the computing method of the sensitivity.

参考文献

[1] Jiang H. Computed tomography: Principle, design, artifacts and recent advances［M］. Beijing: Science Press, 2006.

[2] Chen Ping, Pan Jinxiao, Liu Bin. Industrial computed tomography image size measurement［J］. Nuclear Instruments and Methods in Phy sics Research Section A, 2009, 608(1):185-190.

[3] 段黎明, 邱猛, 吴朝明.面向逆向工程的工业CT图像预处理系统开发［J］.强激光与粒子束, 2008, 20(4):666-670.(Duan Liming, Qiu Meng, Wu Chaoming. Development of industrial CT image pre-processing system for reverse engineering. High Power Laser and Particle Beams, 2008, 20(4):666-670)

[4] Constantin F, Pavel C, Bugoi R, et al. An X-ray tomograph based on a flat panel detector［J］. Nuclear Instruments and Methods in Physics Research Section A, 2010, 621(1/3):685-689.

[5] 楼棋, 李玉兰, 李元景, 等.用于高能X射线成像的CdWO4闪烁体探测器探测灵敏度的研究［J］.核电子学与探测技术, 2002, 22(2):331-334.(Lou Qi, Li Yulan, Li Yuanjing, et al. The study on the sensitivity of CdWO4 scintillating detector for high energy X-ray imaging system. Nuclear Electronics and Detection Technology, 2002, 22(2):331-334)

[6] 易荣清, 祁兰英, 郑志坚, 等.1~1 000 keV能区X射线闪烁探测器灵敏度的标定［J］.强激光与粒子束, 1990, 2(1):23-28.(Yi Rongqing, Qi Lanying, Zheng Zhijian, et al. Calibration of X-ray scintillation detectros in 1 keV to 1 000 keV energy range. High Power Laser and Particle Beams, 1990, 2(1):23-28)

[7] Chavanelle J, Parmentier M. A CsI(Tl)-PIN photodiode gamma-ray probe［J］. Nuclear Instruments and Methods in Physics Research, 2003, 504(1/3):321-324.

[8] 复旦大学.核原子物理实验方法［M］. 北京：原子能出版社, 1982:99-105.(Fudan University. Nuclear physics experiment method. Beijing: Atomic Energy Press, 1982:99-105)

[9] Mark J. Photodetection and measurement: maximizing performance in optical systems［M］. New York: McGraw-Hill, 2003.

[10] Schlosser D M, Lechner P, Lutz G, et al. Expanding the detection efficiency of silicon drift detectors［J］. Nuclear Instruments and Methods in Physics Research Section A, 2010, 624(2):270-276.

[11] 梁齐, 高启安, 常勇.长方塑料闪烁体光收集效率的研究［J］.核技术, 1994, 8(17):493-498.(Liang Qi, Gao Qi’an, Chang Yong. A study on light collection efficiency of rectangular plastic scintillators. Nuclear Technology, 1994, 8(17):493-498)

[12] 江孝国, 王伟, 王婉丽.X光作用下CsI:Tl晶体的转换效率研究［J］.强激光与粒子束, 2005, 17(2):203-205.(Wang Xiaoguo, Wang Wei, Wang Wanli. Conversion efficiency of the CsI:Tl crystal excited by X-ray. High Power Laser and Particle Beams, 2005, 17(2):203-205)

[13] GBZ/T 144-2002.用于光子外照射放射防护的剂量转换系数［S］.(GBZ/T144-2002. Dose conversion coefficients for use in radiological protection against photon external radiation)

[14] 张朝宗, 郭志平, 张朋, 等.工业CT技术和原理［M］.北京:科学出版社, 2009.(Zhang Chaozong, Guo Zhiping, Zhang Peng, et al. Industrial CT technology and principle. Beijing: Science Press, 2009)

[15] 李星洪.辐射防护基础［M］.北京:原子能出版社, 1982:96-98.(Li Xinghong. Radiation protection foundation. Beijing: Atomic Energy Press, 1982:96-98)

王珏, 陈教泽, 谭辉, 陈旭峰. 工业CT光电二极管探测器灵敏度[J]. 强激光与粒子束, 2012, 24(1): 210. Wang Jue, Chen Jiaoze, Tan Hui, Chen Xufeng. Sensitivity of photodiode detector for industrial computed tomography[J]. High Power Laser and Particle Beams, 2012, 24(1): 210.

工业CT光电二极管探测器灵敏度

关于本站 Cookie 的使用提示

全站搜索

工业CT光电二极管探测器灵敏度

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索