宇宙射线物理学的最新进展

P. Blasi
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引用次数: 5

摘要

对宇宙射线起源理论的探索可能被认为是一个标准的、令人满意的模型,目前仍在进行中。一方面,有许多间接证据表明,我们银河系中的超新星在产生地球上观测到的大部分宇宙射线方面起着至关重要的作用。另一方面,关于它们加速粒子到达膝盖的能力的重要问题仍然没有答案。通常的解释是,膝盖的特征与宇宙射线的光成分的最大能量和向逐渐变重的质量成分的过渡相一致,这主要是基于KASCADE的结果。最近的一些数据似乎对这一发现提出了质疑:YAC1 - Tibet阵列和ARGO-YBJ发现光分量的通量在~ 700 TeV处减少,明显低于膝盖。无论光核的最大能量是高达3000 TeV还是低至几百TeV,对超新星遗迹宇宙射线起源范式以及从银河系到河外宇宙射线过渡的关键问题都有非常重要的影响。在如此复杂的现象学情况下,重要的是要清楚地了解什么是真正知道的,什么是不知道的。在这里,我将讨论宇宙射线起源理论(或理论)的一些可靠和不太可靠的方面,以及对该领域未来研究的影响。
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Recent developments in cosmic ray physics

The search for a theory of the origin of cosmic rays that may be considered as a standard, agreeable model is still ongoing. On one hand, much circumstantial evidence exists of the fact that supernovae in our Galaxy play a crucial role in producing the bulk of cosmic rays observed on Earth. On the other hand, important questions about their ability to accelerate particles up to the knee remain unanswered. The common interpretation of the knee as a feature coinciding with the maximum energy of the light component of cosmic rays and a transition to a gradually heavier mass composition is mainly based on KASCADE results. Some recent data appear to question this finding: YAC1 – Tibet Array and ARGO-YBJ find a flux reduction in the light component at ∼ 700 TeV, appreciably below the knee. Whether the maximum energy of light nuclei is as high as 3000 TeV or rather as low as a few hundred TeV has very important consequences on the supernova remnant paradigm for the origin of cosmic rays, as well on the crucial issue of the transition from Galactic to extragalactic cosmic rays. In such a complex phenomenological situation, it is important to have a clear picture of what is really known and what is not. Here I will discuss some solid and less solid aspects of the theory (or theories) for the origin of cosmic rays and the implications for future searches in this field.

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Contents Editorial Board Author index Hybrid Simulations of Particle Acceleration at Shocks Using optical lines to study particle acceleration at supernova remnants
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