http://arxiv.org/abs/2210.09205
Precise measurements of the boron-to-carbon and boron-to-oxygen ratios by DAMPE show clear hardenings around $100$ GeV/n, which provide important implications on the production, propagation, and interaction of Galactic cosmic rays. In this work we investigate a number of models proposed in literature in light of the DAMPE findings. These models can roughly be classified into two classes, the propagation effect and the source effect. Among these models discussed, we find that the re-acceleration of cosmic rays during their propagation by random magnetohydrodynamic waves may not reproduce significant enough hardenings of B/C and B/O, and an additional spectral break of the diffusion coefficient is required. The other models can properly explain the hardenings of the ratios. However, depending on simplifications assumed, the models differ in their quality in reproducing the data in a wide energy range. The models with significant re-acceleration effect will under-predict low-energy antiprotons but over-predict low-energy positrons, and the models with secondary production at sources over-predict high-energy antiprotons. For all models high-energy positron excess exists.
P. Ma, Z. Xu, Q. Yuan, et. al.
Tue, 18 Oct 22
1/99
Comments: 13 pages, 7 figures
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