<p>In most particle acceleration or propagation theories, the characteristic features of the cosmic ray spectra due to acceleration limits or propagation phase changes are charge-dependent<sup><CitationRef AdditionalCitationIDS="CR2 CR3" CitationID="CR1">1</CitationRef>–<CitationRef CitationID="CR4">4</CitationRef></sup>. Alternatively, the interaction scenario would expect mass-dependent spectral features in general. The observational verification of which relation takes effect in nature is still lacking because of the difficulty in measuring the spectra of individual particles up to very high energies. Here we report direct measurements of the carbon, oxygen and iron spectra from about 20 gigavolts to around 100 teravolts (60 teravolts for iron) with 9 years of on-orbit data collected by the Dark Matter Particle Explorer. Distinct spectral softenings have been directly detected in these spectra for the first time, to our knowledge. Combined with the updated proton and helium spectra, the spectral softening appears universally at a rigidity of about 15 teravolts. A nuclei-mass-dependent softening is rejected at a confidence level of &gt;99.999%. Possible interpretations of these results, including a nearby cosmic ray source<sup><CitationRef AdditionalCitationIDS="CR6" CitationID="CR5">5</CitationRef>–<CitationRef CitationID="CR7">7</CitationRef></sup> and other models such as the propagation effect<sup><CitationRef CitationID="CR8">8</CitationRef></sup>, are discussed.</p>

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Charge-dependent spectral softenings of primary cosmic rays below the knee

  • Francesca Alemanno,
  • Qi An,
  • Philipp Azzarello,
  • Felicia-Carla-Tiziana Barbato,
  • Paolo Bernardini,
  • Xiao-Jun Bi,
  • Hugo Boutin,
  • Irene Cagnoli,
  • Ming-Sheng Cai,
  • Elisabetta Casilli,
  • Jin Chang,
  • Deng-Yi Chen,
  • Jun-Ling Chen,
  • Zhan-Fang Chen,
  • Zi-Xuan Chen,
  • Paul Coppin,
  • Ming-Yang Cui,
  • Tian-Shu Cui,
  • Ivan De Mitri,
  • Francesco de Palma,
  • Adriano Di Giovanni,
  • Tie-Kuang Dong,
  • Zhen-Xing Dong,
  • Giacinto Donvito,
  • Jing-Lai Duan,
  • Kai-Kai Duan,
  • Rui-Rui Fan,
  • Yi-Zhong Fan,
  • Fang Fang,
  • Kun Fang,
  • Chang-Qing Feng,
  • Lei Feng,
  • Sara Fogliacco,
  • Jennifer-Maria Frieden,
  • Piergiorgio Fusco,
  • Min Gao,
  • Fabio Gargano,
  • Essna Ghose,
  • Ke Gong,
  • Yi-Zhong Gong,
  • Dong-Ya Guo,
  • Jian-Hua Guo,
  • Shuang-Xue Han,
  • Yi-Ming Hu,
  • Guang-Shun Huang,
  • Xiao-Yuan Huang,
  • Yong-Yi Huang,
  • Maria Ionica,
  • Lu-Yao Jiang,
  • Wei Jiang,
  • Yao-Zu Jiang,
  • Jie Kong,
  • Andrii Kotenko,
  • Dimitrios Kyratzis,
  • Shi-Jun Lei,
  • Bo Li,
  • Manbing Li,
  • Wen-Hao Li,
  • Wei-Liang Li,
  • Xiang Li,
  • Xian-Qiang Li,
  • Yao-Ming Liang,
  • Cheng-Ming Liu,
  • Hao Liu,
  • Jie Liu,
  • Shu-Bin Liu,
  • Yang Liu,
  • Francesco Loparco,
  • Miao Ma,
  • Peng-Xiong Ma,
  • Tao Ma,
  • Xiao-Yong Ma,
  • Giovanni Marsella,
  • Mario-Nicola Mazziotta,
  • Dan Mo,
  • Yu Nie,
  • Xiao-Yang Niu,
  • Andrea Parenti,
  • Wen-Xi Peng,
  • Xiao-Yan Peng,
  • Chiara Perrina,
  • Enzo Putti-Garcia,
  • Rui Qiao,
  • Jia-Ning Rao,
  • Yi Rong,
  • Ritabrata Sarkar,
  • Pierpaolo Savina,
  • Andrea Serpolla,
  • Zhi Shangguan,
  • Wei-Hua Shen,
  • Zhao-Qiang Shen,
  • Zhong-Tao Shen,
  • Leandro Silveri,
  • Jing-Xing Song,
  • Hong Su,
  • Meng Su,
  • Hao-Ran Sun,
  • Zhi-Yu Sun,
  • Antonio Surdo,
  • Xue-Jian Teng,
  • Andrii Tykhonov,
  • Gui-Fu Wang,
  • Jin-Zhou Wang,
  • Lian-Guo Wang,
  • Shen Wang,
  • Xiao-Lian Wang,
  • Yan-Fang Wang,
  • Da-Ming Wei,
  • Jia-Ju Wei,
  • Yi-Feng Wei,
  • Di Wu,
  • Jian Wu,
  • Sha-Sha Wu,
  • Xin Wu,
  • Zi-Qing Xia,
  • Zheng Xiong,
  • En-Heng Xu,
  • Hai-Tao Xu,
  • Jing Xu,
  • Zhi-Hui Xu,
  • Zun-Lei Xu,
  • Zi-Zong Xu,
  • Guo-Feng Xue,
  • Ming-Yu Yan,
  • Hai-Bo Yang,
  • Peng Yang,
  • Ya-Qing Yang,
  • Hui-Jun Yao,
  • Yu-Hong Yu,
  • Qiang Yuan,
  • Chuan Yue,
  • Jing-Jing Zang,
  • Sheng-Xia Zhang,
  • Wen-Zhang Zhang,
  • Yan Zhang,
  • Ya-Peng Zhang,
  • Yi Zhang,
  • Yong-Jie Zhang,
  • Yong-Qiang Zhang,
  • Yun-Long Zhang,
  • Zhe Zhang,
  • Zhi-Yong Zhang,
  • Cong Zhao,
  • Hong-Yun Zhao,
  • Xun-Feng Zhao,
  • Chang-Yi Zhou,
  • Xun Zhu,
  • Yan Zhu

摘要

In most particle acceleration or propagation theories, the characteristic features of the cosmic ray spectra due to acceleration limits or propagation phase changes are charge-dependent14. Alternatively, the interaction scenario would expect mass-dependent spectral features in general. The observational verification of which relation takes effect in nature is still lacking because of the difficulty in measuring the spectra of individual particles up to very high energies. Here we report direct measurements of the carbon, oxygen and iron spectra from about 20 gigavolts to around 100 teravolts (60 teravolts for iron) with 9 years of on-orbit data collected by the Dark Matter Particle Explorer. Distinct spectral softenings have been directly detected in these spectra for the first time, to our knowledge. Combined with the updated proton and helium spectra, the spectral softening appears universally at a rigidity of about 15 teravolts. A nuclei-mass-dependent softening is rejected at a confidence level of >99.999%. Possible interpretations of these results, including a nearby cosmic ray source57 and other models such as the propagation effect8, are discussed.