INVESTIGATION OF PULSE SHAPE NEUTRON-GAMMA DISCRIMINATION

Resource-Efficient Technologies Pub Date : 2019-12-13 DOI:10.18799/24056537/2019/3/247

R. Avetisyan, R. Avagyan, A. Avetisyan, A. Gyurjinyan, A. G. Barseghyan, I. Kerobyan, A. Manukyan

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Abstract

The role of neutron beam investigation is significant not only for fundamental science but also for various fields of applied science. This work is dedicated to the formation of neutron beams using the external 18-MeV proton beam of IBA cyclotron C18/18 with a beam current of up to 100 µA. The facility is located at the A. Alikhanyan National Science Laboratory (Yerevan Physics Institute). The possibility to obtain thermal or epithermal neutron beams using the external proton beam of the cyclotron is studied using Geant4 simulations. In this case, a quasimonoenergetic neutron source 9Be (p, n)9B reaction is chosen. As a result of the simulations, the optimal thickness of the 9Be beryllium isotope target is determined. The induced neutron beam is accompanied by a gamma ray background. To decrease the number of accompanying gamma rays, the lead absorber is considered. As a method of separating neutrons from gamma rays, the pulse shape discrimination (PSD) technique is developed. This study shows the possibility of neutron-gamma PSD and its applicability using the EJ-299-33A plastic scintillator.

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脉冲形状中子- γ判别的研究

中子束研究不仅对基础科学，而且对应用科学的各个领域都具有重要意义。本工作致力于利用IBA回旋加速器C18/18的外部18-MeV质子束形成中子束，束流高达100µa。该设施位于A. Alikhanyan国家科学实验室(埃里温物理研究所)。利用Geant4模拟研究了利用回旋加速器外部质子束获得热中子束或超热中子束的可能性。在这种情况下，选择准单能中子源9Be (p, n)9B反应。通过模拟，确定了9Be铍同位素靶材的最佳厚度。产生的中子束伴随着伽马射线背景。为了减少伴随的伽马射线的数量，考虑了铅吸收剂。作为一种从伽马射线中分离中子的方法，脉冲形状判别(PSD)技术得到了发展。本研究证明了利用ej9 -299- 33a塑料闪烁体实现中子- γ PSD的可能性及其适用性。

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Resource-Efficient Technologies

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7 weeks