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引用次数: 0
摘要
分析宇宙射线(CRs)的同位素组成可以深入了解星系环境,有助于完善现有的传播模型。人们对宇宙射线轻同位素成分的次主比特别感兴趣,对其进行测量可以提供与 B/C 等次主比相关的补充信息。鉴于同时测量速度和动量以区分相同 Z 的同位素的复杂性(通常使用磁谱仪完成这项任务),现有的这些比率测量只能有效地描述低能区(低于 1 GeV/nucl)的特征。本研究介绍了一种基于多重散射的新技术,用于在高达 100 GeV/nucl 的高能量下区分 CR 中的同位素,该技术与拟议的速度测量相结合,是磁谱仪的一种有趣的替代方法。通过使用 GEANT4 软件包进行专门模拟,对该技术的性能进行了评估,重点是 Z = 1 同位素。
A Multiple Scattering-Based Technique for Isotopic Identification in Cosmic Rays
Analyzing the isotopic composition of cosmic rays (CRs) provides valuable insights into the galactic environment and helps refine existing propagation models. A particular interest is devoted to secondary-to-primary ratios of light isotopic components of CRs, the measurement of which can provide complementary information with respect to secondary-to-primary ratios like B/C. Given the complexity of the concurrent measurement of velocity and momentum required to differentiate isotopes of the same Z, a task typically accomplished using magnetic spectrometers, existing measurements of these ratios only effectively characterize the low-energy region (below 1 GeV/nucl). This study introduces a novel technique for isotopic distinction in CRs at high energies up to 100 GeV/nucl based on multiple scattering, which, combined with the proposed measurement of velocity, represent an interesting alternative to magnetic spectrometers. The performance of this technique was assessed through a dedicated simulation using the GEANT4 package, with specific emphasis on Z = 1 isotopes.
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