基于蒙特卡罗方法的LS-NaI 4πβ-γ反符合外推及不确定性研究
Monte Carlo based approach to the LS–NaI 4πβ–γ anticoincidence extrapolation and uncertainty.
作者信息
Fitzgerald R
出版信息
Appl Radiat Isot. 2016 Mar;109:308-13. doi: 10.1016/j.apradiso.2015.11.107.
Abstract
The 4πβ–γ anticoincidence method is used for the primary standardization of β−, β+, electron capture (EC), α, and mixed-mode radionuclides. Efficiency extrapolation using one or more γ ray coincidence gates is typically carried out by a low-order polynomial fit. The approach presented here is to use a Geant4-based Monte Carlo simulation of the detector system to analyze the efficiency extrapolation. New code was developed to account for detector resolution, direct γ ray interaction with the PMT, and implementation of experimental β-decay shape factors. The simulation was tuned to 57Co and 60Co data, then tested with 99mTc data, and used in measurements of 18F, 129I, and 124I. The analysis method described here offers a more realistic activity value and uncertainty than those indicated from a least-squares fit alone.
摘要
4πβ–γ 反符合方法用于 β−、β+、电子俘获(EC)、α 和混合模式放射性核素的初级标准化。使用一个或多个 γ 射线符合门进行效率外推通常通过低阶多项式拟合来实现。本文提出的方法是使用基于 Geant4 的探测器系统蒙特卡罗模拟来分析效率外推。开发了新代码以考虑探测器分辨率、γ 射线与光电倍增管的直接相互作用以及实验性 β 衰变形状因子的实现。该模拟针对 57Co 和 60Co 数据进行了调整,然后用 99mTc 数据进行了测试,并用于 18F、129I 和 124I 的测量。与仅通过最小二乘法拟合得出的值相比,本文所述的分析方法提供了更现实的活度值和不确定度。
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