摘要
放射源的辐射指纹能起到标识和鉴别放射性物体的作用 .在涉及核弹头不可逆销毁过程的深度核裁军核查中 ,核弹头的辐射指纹对标识和鉴别裁减下来的核弹头将起到关键作用 .预先研究辐射指纹的有关技术 ,如识别机理的研究 ,将有助于深度核裁军的核弹头核查技术发展 .以实验室放射源为研究对象 ,探索了类型γ射线能谱指纹的同一性识别机理 .类型γ射线指纹识别机理的研究 ,就是要找出一种合适的方法 ,以较高的置信度 ,描述两个正在进行比较的γ射线指纹是否为同一放射源的指纹 .采用了谱形比较法 ,并用谱相似度概念来描述两个指纹的相似程度 .在谱形比较思想的指导下 ,编制了放射源类型指纹识别软件 ,并通过放射源同一性的识别实验验证了软件的有效性 ,同时研究了谱相似度随统计涨落和测量条件 ,如时间、源强和本底等因素的变化情况 .研究结果表明 :1)用相似度概念来描述两个指纹的相似程度 ,回答两个待比较的γ射线能谱是否代表同一类型放射源 ,是切实可行的 ;2 )该识别机理只具备识别放射源类型的能力 ,而对同一类型。
Radiation fingerprints sometimes can be used to label and identify the radiation resources. For instance, in a future nuclear reduction treaty that requires verification of irreversible dismantling of reduced nuclear warheads, the radiation fingerprints of nuclear warheads are expected to play a key role in labeling and identifying the reduced warheads. It would promote the development of nuclear warheads deep cuts verification technologies if we start right now some investigations on the issues related to the radiation fingerprints. This paper is dedicated to the investigation of gamma ray fingerprint identifying mechanism for the types of radiation resources. The purpose of the identifying mechanism investigation is to find a credible way to tell whether any two gamma ray spectral fingerprints that are under comparison are radiated from the same resource. We created the spectrum pattern comparison (SPC) to study the comparability of the two radiation fingerprints. Guided by the principle of SPC, we programmed a software dedicated to identify the types of radiation resources. The efficiency of the software was tested by a series of experiments with some laboratory gamma ray resources. The experiments were designed to look into the relations between comparability and radioactive statistics, and the relations between comparability and some measurement conditions such as real time, resource activity and background etc. Two main results can be drawn from the investigation: 1) it is quite feasible to use the concept of spectral comparability to answer the question whether any two gamma ray fingerprints are identity or not; 2) the identifying mechanism can only identify the types of radiation resources, and cannot identify the individuals with the same type and small differences.
出处
《物理学报》
SCIE
EI
CAS
CSCD
北大核心
2002年第11期2411-2416,共6页
Acta Physica Sinica
关键词
类型γ射线能谱指纹
辐射指纹
识别机理
核查技术
核弹头
gamma ray spectral fingerprints, radiation fingerprints, identifying mechanism, verification technology