基于单光电倍增管液闪计数器的缪子信号符合消除方法研究OA
Study on the method of eliminating muon signals by coincidence technique based on a single photomultiplier liquid scintillation counter
液体闪烁测量作为一项放射性核素活度检测技术,具有灵敏度高、探测效率高和操作简单等优点,被广泛应用于大气、水体、土壤和生物等样品中低能核素(如14 C、3 H和55 Fe等)的活度测量.在测量过程中,由于本底事件(如缪子)的干扰导致测量结果偏大,从而影响最终分析结果.基于此,提出了一种双路信号符合的方法消除本底事件中的缪子信号,该方法基于快响应光电倍增管(PMT)具有保留信号时间的良好特性,对快响应 PMT 最后一级打拿极输出的 β信号进行标记,和缪子信号进行符合消除.通过标记的 β 信号控制开关通断,实现快响应PMT阳极输出β信号的选通.利用14C液闪样品进行实验验证,结果表明:缪子信号和β信号衰减时间有明显差异,典型缪子信号衰减时间为 154.4 ns,典型 β信号衰减时间为 41.6 ns,且缪子信号的衰减时间在 80 ns以上,β信号的衰减时间介于 10~80 ns之间;采用此方法能够有效地消除缪子信号.研究工作可为便携式低能 β 核素活度的精准测量提供参考.
As a radioactive nuclide activity detection technique with advantages such as high sensitivity,high detection efficiency,and simple operation,liquid scintillation measurement is widely used for measuring the activity of low-energy nuclides(e.g.,14 C,3 H,and 55 Fe)in samples from the atmosphere,water bodies,soil,and biological specimens.During the measurement process,interference from background events(e.g.,muons)leads to inflated results,thereby affecting the final analysis.To address the above problem,this paper proposes a dual-channel signal coincidence method to eliminate muon signals from background events.This method leverages the favorable signal time-preserving characteristics of fast-response photomultiplier tubes(PMTs).It marks the β signal output from the last dynode of the fast-response PMT and applies coincidence rejection to the muon signal.The marked β signal controls the switching of a gate,enabling the gating of the β signal output from the PMT anode.Experimental verification was conducted using 14 C liquid scintillation samples.The results show a significant difference in the decay times between muon signals and β signals.The typical decay time for muon signals is 154.4 ns,while for β signals it is 41.6 ns.Specifically,muon signal decay times exceed 80 ns,whereas β signal decay times fall within the 10~80 ns range.The proposed method effectively eliminates muon signals.This research can serve as a reference for the accurate measurement of portable low-energy β nuclide activity.
张鹏鹏;李德源;王林靖;张宣汝;加德拉·库阿尼别克;李华
中国辐射防护研究院 核药研发转化与精准防护山西省重点实验室,太原 030006中国辐射防护研究院 核药研发转化与精准防护山西省重点实验室,太原 030006中国辐射防护研究院 核药研发转化与精准防护山西省重点实验室,太原 030006中国辐射防护研究院 核药研发转化与精准防护山西省重点实验室,太原 030006中国辐射防护研究院 核药研发转化与精准防护山西省重点实验室,太原 030006中国辐射防护研究院 核药研发转化与精准防护山西省重点实验室,太原 030006
能源科技
液闪测量技术低能核素缪子符合法
liquid scintillation measurement techniquelow-energy nuclidesmuoncoincidence method
《辐射防护》 2026 (1)
1-9,9
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