Using gamma-gamma coincidence measurements to validate Monte Carlo generated detector response functions

W.A. Metwally; R.P. Gardner; A. Sood

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Using gamma-gamma coincidence measurements to validate Monte Carlo generated detector response functions

机译：使用伽玛-伽玛符合测量来验证蒙特卡洛生成的探测器响应函数

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摘要

Monte Carlo simulation of gamma-ray transport for the purpose of performing elemental analysis of bulk samples requires the tracking of gamma rays in the sample and also in the detector(s) used. Detector response functions (DRF's) are an efficient and accurate variance reduction technique that greatly decreases the simulation time by substituting the tracking of gamma rays inside the detector by predefined single energy gamma-ray spectra. These spectra correspond to the average response of the detector for incident gamma rays. rnDRF's are generated by Monte Carlo methods and are benchmarked with experimental data. In this work, prompt gamma-gamma coincidence measurements are presented as a way to validate DRF's for high-energy gamma rays.

机译：为了进行大块样品的元素分析，对伽马射线传输进行蒙特卡洛模拟需要跟踪样品中以及所用检测器中的伽马射线。检测器响应函数（DRF）是一种有效且准确的方差减少技术，通过用预定义的单能伽马射线光谱代替对检测器内部伽马射线的跟踪，可以大大减少仿真时间。这些光谱对应于探测器对入射伽马射线的平均响应。 DRF通过蒙特卡洛方法生成，并以实验数据为基准。在这项工作中，提出了快速的伽马-伽马符合测量，以作为验证高能伽马射线DRF的一种方法。

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来源
《Nuclear Instruments & Methods in Physics Research》 |2007年第1期|50-53|共4页
作者
W.A. Metwally; R.P. Gardner; A. Sood;
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作者单位

Physics Department, Faculty of Science, UAE University, P.O. Box 17551, Al-Ain, United Arab Emirates;

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原文格式 PDF
正文语种 eng
中图分类原子核物理学、高能物理学;原子能技术;
关键词
PGNAA; gamma-gamma coincidence; detector response functions (DRF's);

机译：PGNAA;伽玛巧合检测器响应功能（DRF）;

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专利

1. A Monte Carlo simulation approach for generating NaI detector response functions (DRFs) that accounts for non-linearity and variable flat continua [J] . Robin P. Gardner, Avneet Sood Nuclear Instruments & Methods in Physics Research. B, Beam Interactions with Materials and Atoms . 2004,第Jan期

机译：产生非线性和可变平坦连续性的NaI检测器响应函数（DRF）的蒙特卡罗模拟方法
2. Effect of instrumental instability and detector parameters in positron annihilation Coincidence Doppler Broadening (CDB) measurements: A Monte Carlo simulation study [J] . K. Sudarshan, P.K. Pujari, A. Goswami BARC Report . 2005,第pa1期

机译：仪器不稳定性和探测器参数对正电子ni没重合多普勒展宽（CDB）测量的影响：蒙特卡洛模拟研究
3. Effect of instrumental instability and detector parameters in positron annihilation Coincidence Doppler Broadening measurements: a Monte Carlo simulation study [J] . K. Sudarshan, P.K. Pujari, A. Goswami Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment . 2003,第3期

机译：仪器不稳定性和探测器参数对正电子ni没重合多普勒展宽测量的影响：蒙特卡洛模拟研究
4. Measurement and Monte Carlo Calculation of The Response Function ofa Schottky CdTe Detector With Guard Ring For Medical X-ray Field [C] . Akram MOHAMMADI, Mamoru BABA, Hiroko OHUCHI, . 2006

机译：医用X射线防护环肖特基CdTe探测器响应函数的测量与蒙特卡罗计算。
5. A new Monte Carlo assisted approach to detector response functions. [D] . Sood, Avneet. 2000

机译：一种新的蒙特卡洛辅助方法，用于检测器响应功能。
6. Realistic PET Monte Carlo Simulation With Pixelated Block Detectors Light Sharing Random Coincidences and Dead-Time Modeling [O] . Bastein Guérin, Georges El Fakhri -1

机译：具有像素化块检测器光共享随机重合和死区建模的逼真的PET蒙特卡洛模拟
7. Investigation of the Response Function of the Schottky CdTe detector with Guard-ring Cathode Through Monte Carlo Calculation and Measurement [O] . Akram Mohammadi, Mamoru Baba, Hiroko Ohuchi 2007

机译：肖特基CDTE检测器对带蒙特卡罗计算和测量的肖特基CDTE检测器响应功能研究
8. Monte Carlo Calculated Response of the Dual Thin Scintillation Detector in the Sum Coincidence Mode [R] . Duvall, K. C., Johnson, R. G. 1988

机译：蒙特卡罗计算双重闪烁探测器在和重符号模式下的响应

Using gamma-gamma coincidence measurements to validate Monte Carlo generated detector response functions

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