SIMS微粒分析制样装置研制  被引量：1

作　　者：沈彦[1] 王凡[1] 李力力[1] 张燕[1] 赵永刚[1] SHEN Yan;WANG Fan;LI Lili;ZHANG Yan;ZHAO Yonggang(Department of Radiochemistry,China Institute of Atomic Energy,Beijing 102413,China)

机构地区：[1]中国原子能科学研究院放射化学研究所,北京102413

出　　处：《原子能科学技术》2022年第4期698-704,共7页Atomic Energy Science and Technology

摘　　要：二次离子质谱(SIMS)微粒分析的目的是通过分析擦拭样品中的单个感兴趣微粒的同位素比来探知未申报核活动,将擦拭样品上的微粒回收到样品垫上是整个分析流程的第一步,微粒回收率直接影响其对未申报核活动的探知能力。本工作以空气动力学理论计算为基础,采用空气动力学模拟软件对微粒在回收装置内的运动状况进行了模拟,以此设计优化了回收装置结构,研究了在样品垫上附加捕集材料以提高回收率的方法。结果表明:新型擦拭样品回收装置回收率稳定、回收区域集中、微粒分散性较好。对于1μm的含铀微粒,在不考虑棉布残余含铀微粒的情况下,微粒回收率约为70%,与软件模拟结果一致,在考虑棉布上残余含铀微粒的情况下,微粒回收率约为45%;采用阿皮松作为捕集材料能有效提高微粒回收率,而较长的烘烤时间、较高的烘烤温度能有效降低多原子离子带来的本底干扰,此时其对微粒主同位素分析的影响可忽略。Single particle analysis of environmental samples is an important analysis content in nuclear safeguards. Its purpose is to detect undeclared nuclear activities by analyzing the isotopic abundance of uranium bearing particles released into the environment during the nuclear fuel cycle. Since the nuclear activities characterized by the abundance of each single particle may be different, in order to obtain sufficient information, it is necessary to conduct isotopic analysis on as many uranium containing particles as possible in the samples, which requires that as many uranium bearing particles as possible be recovered to the sample pad during sample preparation, and in order to prevent the generation of mixed particles, it is required to have good dispersion between particles after sample preparation. As the first step of the whole environmental sample analysis process, the efficiency of the recovery method directly affects the efficiency of the whole particle analysis and the ability to detect undeclared nuclear activities. In this work, a sample preparation device for secondary ion mass spectrometry(SIMS) particle analysis was developed. Its basic principle is to recover micron particles to the sample pad through vacuum collision, and attach a layer of adsorption material to the sample pad to adsorb particles, so as to reduce the rebound phenomenon after particles hitting the sample pad. Based on the aerodynamic theoretical calculation, the pneumatic simulation software Fluent 15.0 was used to simulate the trajectory of particles in the recovery device. Through this method, the structure of the recovery device was optimized and the parameters of the recovery device were determined, so as to establish a new scanning recovery device with stable recovery, good particle dispersion and concentrated recovery area. On this basis, the effects of additional adsorption materials on the recovery and possible background interference were studied. The results show that for 1 μm uranium containing particles, the particle reco

关 键 词：擦拭样品 含铀微粒 同位素比 回收装置 

分 类 号：TL275[核科学技术—核燃料循环与材料]