ACCURACY OF MEASUREMENT OF NATURAL GAMMA RAY SPECTRA BY HD－8004 NaI（T1）GAMMA SPECTROMETER

The measurement principle and analysis method of natural gamma-ray spectra using Nal(T1) scintillation spectrometer are briefly described first, thed block diagrams of the HD-8004 Nal(T1) gamma-ray spectrometer. Finally, sample measurements are listed and discussed. The results are quite promising. Based on the analysis of these measurements, measures to improve the accuracy of spectrum measurement are proposed. It is well hoped that these measures call contribute to the development and application of gamma-ray spectrum measurement.

NaI(T1)探测器的外气效应

1988年6月29日,我们探索用核辐射探测器来进行外气测量。在用NaI(T1)单晶进行实验的过程中,发现在外气作用时所测得的计数反而比本底计数低,尤其是对于φ40×1mm^2厚的薄晶体,情况更为明显。

NaI(Tl)γ能谱分析中谱漂移的分时动态修正方法

作者为解决NaI(Tl)γ谱仪在测量过程中谱漂移对解谱的影响,提出了一种软件分时动态谱漂移修正方法,并用3组份点源进行了检验.结果表明,修正后用神经网络方法解谱的误差由4.6%减少到3.0%.

NaI(TI)探测器晶体体积对主要性能影响研究

使用^(137)Cs、^(60)Co和^(22)Na三种点射线源,分别探讨了由不同体积闪烁晶体组成的探测器对不同能量γ射线的峰效率、能谱响应及有效中心的影响。实验结果表明:随着闪烁晶体体积的不同,不同能量γ能谱光电峰的峰位及其能量分辨率都发生了变化。还发现探测器有效中心点的位置依赖于闪烁晶体的体积,其峰效率的倒数与探测器有效距离平方成反比。此实验结果可为改善不同体积NaI(Tl)闪烁探测器的能谱响应和高精度测量提供参考。

大体积NaI(Tl)探测器性能研究

利用蒙特卡洛方法,对不同体积NaI(Tl)探测器的探测效率进行了计算。对圣戈班(Saint-Gobain)5"×8"NaI(Tl)探测器的能量分辨及时间响应进行了测试。在14MeV氘-氚中子源照射条件下,测量模拟样(化学式:HCNO)的特征瞬发伽马谱,与国产Φ4"×4"NaI(Tl)探测器进行了比较。结果表明,圣戈班的大体积NaI(Tl)探测器具有高的探测效率、好的能量分辨及快时间分辨的特点,能够满足利用伴随粒子法测量中子激活瞬发伽马的要求。

大尺寸NaI(Tl)晶体的热锻及封装

本文在讨论了NaI(Tl)晶体热锻及封装机理和工艺的基础上 ,对大尺寸NaI(Tl)晶体的热锻及封装的工艺作了详细地研究 ,并成功地制备了各项性能指标优良的大尺寸NaI(Tl)晶体闪烁探测器。

NaI(Tl)闪烁探测器测量γ射线的性能分析

本文提出NaI(Tl)闪烁探测器测量γ射线的性能要用灵敏度和垂直分辨率来表征。通过分析灵敏度的影响因素,探讨了灵敏度与灵敏体积的关系,提出了提高灵敏度的技术途径。在分析垂直分辨率影响因素的基础上,提出了提高垂直分辨率的技术途径,给出了确定垂直分辨率的经验公式,通过分析、比较,认为最小可分辨厚度是垂直分辨率的逼近极限。这些结论,对于改进NaI(Tl)闪烁探测器设计,提高闪烁探测器的测量性能具有重要的指导作用。

环境水样自动监测装置的效率标定及Monte Carlo模拟

为获得自动取样监测装置中的NaI(Tl)探测器对于低水平环境水样中人工放射性核素137Cs比活度,对NaI(Tl)探测器γ能谱响应进行了实验标定与Monte Carlo模拟,分别模拟了探测器对137Cs点源的能谱响应,探测器置于铅室内137Cs溶液中央的能谱响应。探测效率与峰总比的模拟计算结果与实际值基本一致。结果表明,利用经较高比活度实验结果验证的MC计算模型,可校正低活度水平环境水样的测量值,为在线监测方法的建立提供了技术支持。

Monte Carlo Simulation of in situ Gamma-Spectra Recorded by Na I(Tl) Detector in the Marine Environment

To develop a NaI （T1） detector for in situ radioactivity monitoring in the marine environment and enhance the confidence of the probability of the gamma-spectrum analysis, Monte Carlo simulations using the Monte Carlo N-Particle （ MNCP ） code were performed to provide the response spectra of some interested radionuclides and the background spectra originating from the natural radionuclides in seawater recorded by a NaI （T1） detector. A newly developed 75 mm × 75 mm NaI （T1） detector was calibrated using four reference radioactive sources 137Cs, 60Co, 40K and 54Mn in the laboratory before the field measurements in seawater. A simulation model was established for the detector immersed in seawater. The simulated spectra were all broadened with Gaussian pulses to reflect the statistical fluctuations and electrical noise in the real measurement. The simulated spectra show that the single-energy photons into the detector are mostly scattering low-energy photons and the high background in the low energy region mainly originates from the Compton effect of the high energy y-rays of natural radionuclides in seawater. The simulated background spectrum was compared with the experimental one recorded in field measurement and they seem to be in good agreement. The simulation method and spectra can be used for the accurate analysis of the filed measurement results of low concentration radioactivity in seawater.

Application of Optical Fiber in Radiation Detection Systems

In the last years, the production of optical fibers cables has made possible the development of a range of spectroscopic probes for in situ analysis performing beyond nondestructive tests, environmental monitoring, security investigation, application in radiotherapy for dose monitoring, verification and validation. In this work, a system using an optical fiber cable to electromagnetic signal transmission from a NaI（TI） radiation detector is presented. The innovative device takes advantage mainly of the optical fibers large passband, small signal attenuation and immunity to electromagnetic interference to application for radiation detection systems. The main aim was to simplify the detection system making it to reach areas where the conventional device cannot access due to its lack of mobility and external dimensions. Some tests with this innovative system are presented and the results stimulate the continuity of the researches.

提高Y01型γ闪烁探测器探测效率和测量精度的研究

主要研究了提高Y01型γ闪烁探测器探测效率和测量精度的方法，介绍了Y01型γ闪烁探测器的工作原理及其闪烁体的特性参数。通过理论和试验验证了采用CsI（T1）晶体替代NaI（T1）晶体后，探测器探测效率和测量精度明显提高，可满足现场生产需要。

物联网下船舶运输集装箱放射性监测技术

为了提高放射性识别效果,保证集装箱运输的安全性与平稳性,研究物联网下船舶运输集装箱放射性监测技术。构建物联网下船舶运输集装箱放射性监测框架,无线终端采集模块通过NaI(T1)γ能谱仪、GPS/AIS接收模块采集存放于货舱的各集装箱放射性能谱数据等,利用Zigbee通信模块将各采集数据上传到船舶监控后台,采用三点重心平滑方法处理放射性能谱数据,获得1 024个道址数据,再以32道址为一个数据采样间隔,将其划分为32组时间序列,作为LSMT网络的输入,实现船舶运输集装箱放射性监测。监测结果通过4G移动网络传输给岸基监控中心,结果表明,学习率为10-3时,LSTM网络性能最佳。通过放射性能谱数据可实现集装箱放射性监测,监测结果与实际相符,监测性能突出。

无人旋翼机机载放射性监测系统研制

选取GM管与NaI(T1)伽马谱仪双辐射探测器作为辐射监测单元,通过软硬件开发,将GPS技术、无线通信技术、核分析技术、放射源定位、剂量率绘图等功能相融合,研制出一套快速灵敏且不受地形限制的远程机载辐射监测系统。测试结果表明:所开发的无人旋翼机机载放射性监测系统在3 km的传输距离下可保持稳定有效的数据通信;机载监测系统的最大可探测距离满足环境辐射监测需求;系统上位机软件实时显示获取的环境辐射数据,并具有轨迹标定、剂量警报、数据查询和分析等功能,为环境辐射评估提供了依据。

燃料元件厂可燃含铀废物γ扫描装置系统软件的研制

本文叙述了燃料元件厂可燃合铀废物γ扫描装置系统软件的研制成果。较详尽地分析了软件的结构、用户界面、能谱获取和数据处理以及刻度曲线的实现方法。刻度实验和工厂的实际运行表明,系统的研制成功既为工厂提供了现场使用的原型装置软件,也为开发元件制造厂和后处理厂其他无损分析装置的系统软件打下了基础。

NaI (Tl) calorimeter calibration and simulation for Coulomb sum rule experiment in Hall-A at Jefferson Lab

A precision measurment of inclusive electron scattering cross sections is carried out at Jefferson Lab in the quasi-elastic region for 4 He, 12 C, 56 Fe and 208 Pb targets. The longitudinal （R L ） and transverse （R T ） response functions of the nucleon need to be extracted precisely in the momentum transfer range 0.55 GeV/c≤ ｜ q ｜ ≤1.0 GeV/c. To achieve the above goal, a NaI （Tl） calorimeter is used to distinguish good electrons from background, including pions and low energy electrons rescattered from the walls of the spectrometer magnets. Due to a large set of kinematics and changes in HV settings, a number of calibrations are performed for the NaI （Tl） detector. Corrections for a few blocks of NaI （Tl） with bad or no signal are applied. The resolution of the NaI （Tl） detector after calibration reached δE/E^（1/2） ≈ 3% at E=1 GeV. The performance of the NaI （Tl） detector is compared with a simulation. The good calibration and background analysis for the NaI（Tl） detector are very important for the reduction of the systematic error of cross sections and the separation of R L and R T .

Study of radiation background at the north crossing point of the BEPC in collision mode

Understanding the radiation background at the north crossing point （NCP） in the tunnel of BEPCII is crucial for the performance safety of the High Purity Germanium （HPGe） detector, and in turn of great significance for long-term stable running of the energy measurement system. Therefore, as the first step, a NaI（T1） detector is constructed to continuously measure the radiation level of photons as background for future experiments. Furthermore, gamma and neutron dosimeters are utilized to explore the radiation distribution in the vicinity of the NCP where the HPGe detector will be located. Synthesizing all obtained information, the shielding for neutron irradiation is studied based on model-dependent theoretical analysis.

Measurement of radiation dose at the north interaction point of BEPC Ⅱ

The technique details for measuring radiation dose are expounded. The results of gamma and neutron radiation levels are presented and the corresponding radiation shielding is discussed based on the simplified estimation. In addition, the photon radiation level move as background for future experiments is measured by a NaI（T1） detector.