The Computer Model of a Thermal Delayed Neutron Fluxes Forming System for Nuclear Medicine

IF 1 Q3 PHYSICS, MULTIDISCIPLINARY
S. Gokov, V. M. Horbach, V. I. Kasilov, L.N. Kolpakova, O.A. Lyukhtan, E.V. Tsiats’ko
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Abstract

In the work the computer model of a cell of a system for generating fluxes of therapeutic beams of delayed neutrons, based on the use of delayed fission neutrons, was developed in the Geant 4 environment. The principle of such a neutron source is that when a powerful electron beam interacts with a combined tungsten target and a target containing fissile material, a fission reaction occurs; as a result of which neutrons are emitted. If we move a target activated in this way several tens of meters into a neutron flux generation system consisting of a heater, protection, collimator and reflector, we will obtain a compact neutron source for nuclear medicine. A significant advantage of such a neutron source is the absence of gamma background from the electron accelerator and the combined target, and a bulky protection system is not required. In the Geant 4 environment, the geometry of this cell was developed and a series of experiments were carried out with 107 neutrons. The QGSP BIC HP physical sheet was used. A study of neutron energy spectra showed that more than half of the neutrons whose fluxes are formed using such a cell of the formation system have an energy <100 keV, which is suitable for use for therapeutic purposes. Analysis of the data obtained in a computer experiment made it possible to develop a modified cell of the system for generating streams of therapeutic beams of delayed neutrons, which differs from the basic one by the presence of a solid polyethylene moderator with holes for activated targets and a graphite reflector. Analysis of the data obtained showed that in this case the number of thermal neutrons hitting the detector increases 10 times compared to the base cell, and the energy of 80% of the particles does not exceed 5 keV, which is much better suited for therapeutic purposes.
核医学热延迟中子通量形成系统的计算机模型
在这项工作中,在 Geant 4 环境中开发了一个用于产生延迟中子治疗束通量的系统单元的计算机模型,其基础是延迟裂变中子的使用。这种中子源的原理是,当强大的电子束与钨靶和含有可裂变材料的靶相互作用时,会发生裂变反应,从而发射出中子。如果我们将以这种方式激活的靶移动几十米,进入一个由加热器、保护装置、准直器和反射器组成的中子通量发生系统,就可以获得一个用于核医学的紧凑型中子源。这种中子源的一个显著优点是没有来自电子加速器和组合靶的伽马背景,也不需要庞大的保护系统。在 Geant 4 环境中,开发了这种单元的几何形状,并用 107 中子进行了一系列实验。使用的是 QGSP BIC HP 物理板。对中子能谱的研究表明,使用这种形成系统单元形成的中子通量中,有一半以上的能量小于 100 keV,适合用于治疗目的。通过对计算机实验中获得的数据进行分析,可以开发出一种用于产生治疗用延迟中子束流的改进型系统单元,该单元与基本单元的不同之处在于增加了一个带有活化靶孔的固体聚乙烯慢化剂和一个石墨反射器。对所获数据的分析表明,在这种情况下,射入探测器的热中子数量比基本单元增加了 10 倍,80% 的粒子能量不超过 5 千伏,更适合治疗目的。
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来源期刊
East European Journal of Physics
East European Journal of Physics PHYSICS, MULTIDISCIPLINARY-
CiteScore
1.10
自引率
25.00%
发文量
58
审稿时长
8 weeks
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