Bonner sphere measurements of high-energy neutron spectra from a 1 GeV/u 56Fe ion beam on an aluminum target and comparison to spectra obtained by Monte Carlo simulations

IF 1.9 3区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Augusto Di Chicco, Felix Horst, Daria Boscolo, Christoph Schuy, Uli Weber, Miroslav Zboril
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Abstract

The goal of this work is to characterize the secondary neutron spectra produced by 1 GeV/u56Fe beam colliding with a thick cylindric aluminum target and to perform a quantitative comparison with simulated results obtained with Monte Carlo codes. The measurements were performed using extended-range Bonner sphere spectrometers at two positions (15° and 40°) with respect to the beam direction. The secondary radiation field was simulated using four Monte Carlo codes (FLUKA, MCNP6, Geant4 and PHITS) and several physical models of nuclei transport and interaction. Neutron and proton energy distributions were simulated for the experimental measurement positions. The simulated neutron spectra, together with data measured with Bonner sphere spectrometers, after carrying out the correction of the contributions induced by the secondary protons, were used as input for the MAXED spectrum unfolding code to obtain the measured neutron spectra. Unfolded neutron spectra were compared with simulated ones to carry out a quantitative analysis of the performance of the chosen Monte Carlo codes and their corresponding physical models. This comparison showed that, because of experimental uncertainties and physical models, there are no unique solutions for each measurement location, but a range of solutions where the true experimental neutron spectra probably lie. The results showed deviations between 4.23% and 8.42% for some simulated spectra. Regarding the total integral values of neutron fluence and ambient equivalent dose, the unfolded neutron spectra showed deviations lower than 2%.
对铝靶上 1 GeV/u 56Fe 离子束产生的高能中子能谱进行的邦纳球测量,以及与蒙特卡罗模拟获得的能谱进行的比较
这项工作的目标是描述 1 GeV/u56Fe 射束与厚圆柱形铝靶碰撞产生的二次中子能谱的特征,并与蒙特卡洛代码获得的模拟结果进行定量比较。测量是在相对于光束方向的两个位置(15° 和 40°)使用扩展范围的邦纳球光谱仪进行的。使用四种蒙特卡洛代码(FLUKA、MCNP6、Geant4 和 PHITS)和几种原子核传输和相互作用的物理模型模拟了二次辐射场。模拟了实验测量位置的中子和质子能量分布。在对次级质子的贡献进行校正后,模拟的中子能谱以及用 Bonner 球光谱仪测量的数据被用作 MAXED 能谱展开代码的输入,以获得测量的中子能谱。将展开的中子能谱与模拟的中子能谱进行比较,以对所选蒙特卡罗代码及其相应物理模型的性能进行定量分析。比较结果表明,由于实验的不确定性和物理模型的原因,每个测量位置都没有唯一的解,而是有一系列可能是真实实验中子谱的解。结果显示,一些模拟光谱的偏差在 4.23% 到 8.42% 之间。关于中子通量和环境当量剂量的总积分值,展开的中子谱图显示的偏差低于 2%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Frontiers in Physics
Frontiers in Physics Mathematics-Mathematical Physics
CiteScore
4.50
自引率
6.50%
发文量
1215
审稿时长
12 weeks
期刊介绍: Frontiers in Physics publishes rigorously peer-reviewed research across the entire field, from experimental, to computational and theoretical physics. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, engineers and the public worldwide.
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