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Main Authors: Dong, Xu-Lin, Gao, Wei-Kang, Guo, Yi-Qing, Cui, Shu-Wang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.21676
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author Dong, Xu-Lin
Gao, Wei-Kang
Guo, Yi-Qing
Cui, Shu-Wang
author_facet Dong, Xu-Lin
Gao, Wei-Kang
Guo, Yi-Qing
Cui, Shu-Wang
contents Under ideal conditions, the theory of shock acceleration for cosmic rays predicts that different elements should exhibit strictly identical spectral indices when accelerated to the same rigidity (R). However, recent high-precision measurements of elemental energy spectra have definitively established the existence of variations in spectral indices across different elements. This study constrains the spectral indices of cosmic-ray elements using AMS-02 and DAMPE observations within the Spatially Dependent Propagation (SDP) model. For elements with A/Z = 2, spectral indices shows significant positive correlations with both atomic number Z and mass number A, likely due to A or Z-dependent fragmentation cross-sections. Predictions indicate that the observed spectra of Ni and Zn will align with the Fe spectrum, while their injection spectra will exhibit slightly softer spectral indices compared to Fe. Future observations from AMS-02, DAMPE and HERD are expected to verify these findings, while theoretical models are needed to systematically explain this phenomenon.
format Preprint
id arxiv_https___arxiv_org_abs_2512_21676
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Investigating the signs of evolutionary characteristics in the energy spectrum of shock wave acceleration
Dong, Xu-Lin
Gao, Wei-Kang
Guo, Yi-Qing
Cui, Shu-Wang
High Energy Astrophysical Phenomena
Under ideal conditions, the theory of shock acceleration for cosmic rays predicts that different elements should exhibit strictly identical spectral indices when accelerated to the same rigidity (R). However, recent high-precision measurements of elemental energy spectra have definitively established the existence of variations in spectral indices across different elements. This study constrains the spectral indices of cosmic-ray elements using AMS-02 and DAMPE observations within the Spatially Dependent Propagation (SDP) model. For elements with A/Z = 2, spectral indices shows significant positive correlations with both atomic number Z and mass number A, likely due to A or Z-dependent fragmentation cross-sections. Predictions indicate that the observed spectra of Ni and Zn will align with the Fe spectrum, while their injection spectra will exhibit slightly softer spectral indices compared to Fe. Future observations from AMS-02, DAMPE and HERD are expected to verify these findings, while theoretical models are needed to systematically explain this phenomenon.
title Investigating the signs of evolutionary characteristics in the energy spectrum of shock wave acceleration
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2512.21676