Constraining the Cosmic-Ray Energy Based on Observations of Nearby Galaxy Clusters by LHAASO

Zhen Cao; F. Aharonian; Y. X. Bai; Y. W. Bao; D. Bastieri; X. J. Bi; Y. J. Bi; W. Bian; A. V. Bukevich; C. M. Cai; W. Y. Cao; Zhe Cao; J. Chang; J. F. Chang; A. M. Chen; E. S. Chen; H. X. Chen; Liang Chen; Long Chen; M. J. Chen; M. L. Chen; Q. H. Chen; S. Chen; S. H. Chen; S. Z. Chen; T. L. Chen; X. B. Chen; X. J. Chen; Y. Chen; N. Cheng; Y. D. Cheng; M. C. Chu; M. Y. Cui; S. W. Cui; X. H. Cui; Y. D. Cui; B. Z. Dai; H. L. Dai; Z. G. Dai; Danzengluobu; Y. X. Diao; X. Q. Dong; K. K. Duan; J. H. Fan; Y. Z. Fan; J. Fang; J. H. Fang; K. Fang; C. F. Feng; H. Feng; L. Feng; S. H. Feng; X. T. Feng; Y. Feng; Y. L. Feng; S. Gabici; B. Gao; C. D. Gao; Q. Gao; W. Gao; W. K. Gao; M. M. Ge; T. T. Ge; L. S. Geng; G. Giacinti; G. H. Gong; Q. B. Gou; M. H. Gu; F. L. Guo; J. Guo; X. L. Guo; Y. Q. Guo; Y. Y. Guo; Y. A. Han; O. A. Hannuksela; M. Hasan; H. H. He; H. N. He; J. Y. He; X. Y. He; Y. He; S. Hernández-Cadena; Y. K. Hor; B. W. Hou; C. Hou; X. Hou; H. B. Hu; S. C. Hu; C. Huang; D. H. Huang; J. J. Huang; T. Q. Huang; W. J. Huang; X. T. Huang; X. Y. Huang; Y. Huang; Y. Y. Huang; X. L. Ji; H. Y. Jia; K. Jia; H. B. Jiang; K. Jiang; X. W. Jiang; Z. J. Jiang; M. Jin; S. Kaci; M. M. Kang; I. Karpikov; D. Khangulyan; D. Kuleshov; K. Kurinov; B. B. Li; Cheng Li; Cong Li; D. Li; F. Li; H. B. Li; H. C. Li; Jian Li; Jie Li; K. Li; L. Li; R. L. Li; S. D. Li; T. Y. Li; W. L. Li; X. R. Li; Xin Li; Y. Z. Li; Zhe Li; Zhuo Li; E. W. Liang; Y. F. Liang; S. J. Lin; B. Liu; C. Liu; D. Liu; D. B. Liu; H. Liu; H. D. Liu; J. Liu; J. L. Liu; J. R. Liu; M. Y. Liu; R. Y. Liu; S. M. Liu; W. Liu; X. Liu; Y. Liu; Y. Liu; Y. N. Liu; Y. Q. Lou; Q. Luo; Y. Luo; H. K. Lv; B. Q. Ma; L. L. Ma; X. H. Ma; J. R. Mao; Z. Min; W. Mitthumsiri; G. B. Mou; H. J. Mu; Y. C. Nan; A. Neronov; K. C.Y. Ng; M. Y. Ni; L. Nie; L. J. Ou; P. Pattarakijwanich; Z. Y. Pei; J. C. Qi; M. Y. Qi; J. J. Qin; A. Raza; C. Y. Ren; D. Ruffolo; A. Sáiz; M. Saeed; D. Semikoz; L. Shao; O. Shchegolev; Y. Z. Shen; X. D. Sheng; Z. D. Shi; F. W. Shu; H. C. Song; Yu V. Stenkin; V. Stepanov; Y. Su; D. X. Sun; H. Sun; Q. N. Sun; X. N. Sun; Z. B. Sun; N. H. Tabasam; J. Takata; P. H.T. Tam; H. B. Tan; Q. W. Tang; R. Tang; Z. B. Tang; W. W. Tian; C. N. Tong; L. H. Wan; C. Wang; G. W. Wang; H. G. Wang; H. H. Wang; J. C. Wang; K. Wang; Kai Wang; Kai Wang; L. P. Wang; L. Y. Wang; L. Y. Wang; R. Wang; W. Wang; X. G. Wang; X. J. Wang; X. Y. Wang; Y. Wang; Y. D. Wang; Z. H. Wang; Z. X. Wang; Zheng Wang; D. M. Wei; J. J. Wei; Y. J. Wei; T. Wen; S. S. Weng; C. Y. Wu; H. R. Wu; Q. W. Wu; S. Wu; X. F. Wu; Y. S. Wu; S. Q. Xi; J. Xia; J. J. Xia; G. M. Xiang; D. X. Xiao; G. Xiao; Y. L. Xin; Y. Xing; D. R. Xiong; Z. Xiong; D. L. Xu; R. F. Xu; R. X. Xu; W. L. Xu; L. Xue; D. H. Yan; J. Z. Yan; T. Yan; C. W. Yang; C. Y. Yang; F. F. Yang; L. L. Yang; M. J. Yang; R. Z. Yang; W. X. Yang; Y. H. Yao; Z. G. Yao; X. A. Ye; L. Q. Yin; N. Yin; X. H. You; Z. Y. You; Y. H. Yu; Q. Yuan; H. Yue; H. D. Zeng; T. X. Zeng; W. Zeng; M. Zha; B. B. Zhang; B. T. Zhang; F. Zhang; H. Zhang; H. M. Zhang; H. Y. Zhang; J. L. Zhang; Li Zhang; P. F. Zhang; P. P. Zhang; R. Zhang; S. R. Zhang; S. S. Zhang; W. Y. Zhang; X. Zhang; X. P. Zhang; Yi Zhang; Yong Zhang; Z. P. Zhang; J. Zhao; L. Zhao; L. Z. Zhao; S. P. Zhao; X. H. Zhao; Z. H. Zhao; F. Zheng; W. J. Zhong; B. Zhou; H. Zhou; J. N. Zhou; M. Zhou; P. Zhou; R. Zhou; X. X. Zhou; X. X. Zhou; B. Y. Zhu; C. G. Zhu; F. R. Zhu; H. Zhu; K. J. Zhu; Y. C. Zou; X. Zuo

doi:10.3847/2041-8213/adb97d

Constraining the Cosmic-Ray Energy Based on Observations of Nearby Galaxy Clusters by LHAASO

Zhen Cao
, F. Aharonian
, Y. X. Bai
, Y. W. Bao
, D. Bastieri
, X. J. Bi
, Y. J. Bi
, W. Bian
, A. V. Bukevich
, C. M. Cai
, W. Y. Cao^*
, Zhe Cao
, J. Chang
, J. F. Chang
, A. M. Chen
, E. S. Chen
, H. X. Chen
, Liang Chen
, Long Chen
, M. J. Chen

M. L. Chen, Q. H. Chen, S. Chen, S. H. Chen, S. Z. Chen, T. L. Chen, X. B. Chen, X. J. Chen, Y. Chen, N. Cheng, Y. D. Cheng, M. C. Chu, M. Y. Cui, S. W. Cui, X. H. Cui, Y. D. Cui, B. Z. Dai, H. L. Dai, Z. G. Dai, Danzengluobu, Y. X. Diao, X. Q. Dong, K. K. Duan, J. H. Fan, Y. Z. Fan, J. Fang, J. H. Fang, K. Fang, C. F. Feng, H. Feng, L. Feng, S. H. Feng, X. T. Feng, Y. Feng, Y. L. Feng, S. Gabici, B. Gao, C. D. Gao, Q. Gao, W. Gao, W. K. Gao, M. M. Ge, T. T. Ge, L. S. Geng, G. Giacinti, G. H. Gong, Q. B. Gou, M. H. Gu, F. L. Guo, J. Guo, X. L. Guo, Y. Q. Guo, Y. Y. Guo, Y. A. Han, O. A. Hannuksela, M. Hasan, H. H. He, H. N. He, J. Y. He, X. Y. He, Y. He, S. Hernández-Cadena, Y. K. Hor, B. W. Hou, C. Hou, X. Hou, H. B. Hu, S. C. Hu, C. Huang, D. H. Huang, J. J. Huang, T. Q. Huang, W. J. Huang, X. T. Huang, X. Y. Huang, Y. Huang, Y. Y. Huang, X. L. Ji, H. Y. Jia, K. Jia, H. B. Jiang, K. Jiang, X. W. Jiang, Z. J. Jiang, M. Jin, S. Kaci, M. M. Kang, I. Karpikov, D. Khangulyan, D. Kuleshov, K. Kurinov, B. B. Li, Cheng Li, Cong Li, D. Li, F. Li, H. B. Li, H. C. Li, Jian Li, Jie Li, K. Li, L. Li, R. L. Li, S. D. Li, T. Y. Li, W. L. Li, X. R. Li, Xin Li, Y. Z. Li, Zhe Li, Zhuo Li, E. W. Liang, Y. F. Liang, S. J. Lin, B. Liu, C. Liu, D. Liu, D. B. Liu, H. Liu, H. D. Liu, J. Liu, J. L. Liu, J. R. Liu, M. Y. Liu, R. Y. Liu, S. M. Liu, W. Liu, X. Liu, Y. Liu, Y. Liu, Y. N. Liu, Y. Q. Lou, Q. Luo, Y. Luo, H. K. Lv, B. Q. Ma, L. L. Ma, X. H. Ma, J. R. Mao, Z. Min, W. Mitthumsiri, G. B. Mou, H. J. Mu, Y. C. Nan, A. Neronov, K. C.Y. Ng, M. Y. Ni, L. Nie, L. J. Ou, P. Pattarakijwanich, Z. Y. Pei, J. C. Qi, M. Y. Qi, J. J. Qin, A. Raza, C. Y. Ren, D. Ruffolo, A. Sáiz, M. Saeed, D. Semikoz, L. Shao, O. Shchegolev, Y. Z. Shen, X. D. Sheng, Z. D. Shi, F. W. Shu, H. C. Song, Yu V. Stenkin, V. Stepanov, Y. Su, D. X. Sun, H. Sun, Q. N. Sun, X. N. Sun, Z. B. Sun, N. H. Tabasam, J. Takata, P. H.T. Tam, H. B. Tan, Q. W. Tang, R. Tang, Z. B. Tang, W. W. Tian, C. N. Tong, L. H. Wan, C. Wang, G. W. Wang, H. G. Wang, H. H. Wang, J. C. Wang, K. Wang, Kai Wang, Kai Wang, L. P. Wang, L. Y. Wang, L. Y. Wang, R. Wang, W. Wang, X. G. Wang, X. J. Wang, X. Y. Wang, Y. Wang, Y. D. Wang, Z. H. Wang, Z. X. Wang, Zheng Wang, D. M. Wei, J. J. Wei, Y. J. Wei, T. Wen, S. S. Weng, C. Y. Wu, H. R. Wu, Q. W. Wu, S. Wu, X. F. Wu, Y. S. Wu, S. Q. Xi, J. Xia, J. J. Xia, G. M. Xiang, D. X. Xiao, G. Xiao, Y. L. Xin, Y. Xing, D. R. Xiong, Z. Xiong, D. L. Xu, R. F. Xu, R. X. Xu, W. L. Xu, L. Xue, D. H. Yan, J. Z. Yan, T. Yan, C. W. Yang, C. Y. Yang, F. F. Yang, L. L. Yang, M. J. Yang, R. Z. Yang^*, W. X. Yang, Y. H. Yao, Z. G. Yao, X. A. Ye, L. Q. Yin, N. Yin, X. H. You, Z. Y. You, Y. H. Yu^*, Q. Yuan, H. Yue, H. D. Zeng, T. X. Zeng, W. Zeng, M. Zha, B. B. Zhang, B. T. Zhang, F. Zhang, H. Zhang, H. M. Zhang, H. Y. Zhang, J. L. Zhang, Li Zhang, P. F. Zhang, P. P. Zhang, R. Zhang, S. R. Zhang, S. S. Zhang, W. Y. Zhang, X. Zhang, X. P. Zhang, Yi Zhang, Yong Zhang, Z. P. Zhang, J. Zhao, L. Zhao, L. Z. Zhao, S. P. Zhao, X. H. Zhao, Z. H. Zhao, F. Zheng, W. J. Zhong, B. Zhou, H. Zhou, J. N. Zhou, M. Zhou, P. Zhou, R. Zhou, X. X. Zhou, X. X. Zhou, B. Y. Zhu, C. G. Zhu, F. R. Zhu, H. Zhu, K. J. Zhu, Y. C. Zou, X. Zuo

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Galaxy clusters act as reservoirs of high-energy cosmic rays (CRs). As CRs propagate through the intracluster medium, they generate diffuse γ-rays detectable by arrays such as LHAASO. These γ-rays result from proton-proton (pp) collisions of very high-energy cosmic rays or inverse Compton (IC) scattering of positron-electron pairs created by pγ interactions of ultra-high-energy cosmic rays (UHECRs). We analyzed diffuse γ-ray emission from the Coma, Perseus, and Virgo clusters using LHAASO data. Diffuse emission was modeled as a disk of radius R₅₀₀ for each cluster while accounting for point sources. No significant diffuse emission was detected, yielding 95% confidence level (C.L.) upper limits on the γ-ray flux: for WCDA (1-25 TeV) and KM2A (>25 TeV), less than (49.4, 13.7, 54.0) and (1.34, 1.14, 0.40) × 10⁻¹⁴ ph cm⁻² s⁻¹ for Coma, Perseus, and Virgo, respectively. The γ-ray upper limits can be used to derive model-independent constraints on the integral energy of cosmic ray protons above 10 TeV (corresponding to the LHAASO observational range >1 TeV under the pp scenario) to be less than (1.96, 0.59, 0.08) × 10⁶¹ erg. The absence of detectable annuli/ring-like structures, indicative of cluster accretion or merging shocks, imposes further constraints on models in which the UHECRs are accelerated in the merging shocks of galaxy clusters.

源语言	英语
文章编号	L19
期刊	Astrophysical Journal Letters
卷	982
期	1
DOI	https://doi.org/10.3847/2041-8213/adb97d
出版状态	已出版 - 20 3月 2025
已对外发布	是

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10.3847/2041-8213/adb97d

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Cao, Z., Aharonian, F., Bai, Y. X., Bao, Y. W., Bastieri, D., Bi, X. J., Bi, Y. J., Bian, W., Bukevich, A. V., Cai, C. M., Cao, W. Y., Cao, Z., Chang, J., Chang, J. F., Chen, A. M., Chen, E. S., Chen, H. X., Chen, L., Chen, L., ... Zuo, X. (2025). Constraining the Cosmic-Ray Energy Based on Observations of Nearby Galaxy Clusters by LHAASO. Astrophysical Journal Letters, 982(1), 文章 L19. https://doi.org/10.3847/2041-8213/adb97d

@article{2f222f29ac6a42dab93448671d50cf44,

title = "Constraining the Cosmic-Ray Energy Based on Observations of Nearby Galaxy Clusters by LHAASO",

abstract = "Galaxy clusters act as reservoirs of high-energy cosmic rays (CRs). As CRs propagate through the intracluster medium, they generate diffuse γ-rays detectable by arrays such as LHAASO. These γ-rays result from proton-proton (pp) collisions of very high-energy cosmic rays or inverse Compton (IC) scattering of positron-electron pairs created by pγ interactions of ultra-high-energy cosmic rays (UHECRs). We analyzed diffuse γ-ray emission from the Coma, Perseus, and Virgo clusters using LHAASO data. Diffuse emission was modeled as a disk of radius R500 for each cluster while accounting for point sources. No significant diffuse emission was detected, yielding 95\% confidence level (C.L.) upper limits on the γ-ray flux: for WCDA (1-25 TeV) and KM2A (>25 TeV), less than (49.4, 13.7, 54.0) and (1.34, 1.14, 0.40) × 10−14 ph cm−2 s−1 for Coma, Perseus, and Virgo, respectively. The γ-ray upper limits can be used to derive model-independent constraints on the integral energy of cosmic ray protons above 10 TeV (corresponding to the LHAASO observational range >1 TeV under the pp scenario) to be less than (1.96, 0.59, 0.08) × 1061 erg. The absence of detectable annuli/ring-like structures, indicative of cluster accretion or merging shocks, imposes further constraints on models in which the UHECRs are accelerated in the merging shocks of galaxy clusters.",

author = "Zhen Cao and F. Aharonian and Bai, \{Y. X.\} and Bao, \{Y. W.\} and D. Bastieri and Bi, \{X. J.\} and Bi, \{Y. J.\} and W. Bian and Bukevich, \{A. V.\} and Cai, \{C. M.\} and Cao, \{W. Y.\} and Zhe Cao and J. Chang and Chang, \{J. F.\} and Chen, \{A. M.\} and Chen, \{E. S.\} and Chen, \{H. X.\} and Liang Chen and Long Chen and Chen, \{M. J.\} and Chen, \{M. L.\} and Chen, \{Q. H.\} and S. Chen and Chen, \{S. H.\} and Chen, \{S. Z.\} and Chen, \{T. L.\} and Chen, \{X. B.\} and Chen, \{X. J.\} and Y. Chen and N. Cheng and Cheng, \{Y. D.\} and Chu, \{M. C.\} and Cui, \{M. Y.\} and Cui, \{S. W.\} and Cui, \{X. H.\} and Cui, \{Y. D.\} and Dai, \{B. Z.\} and Dai, \{H. L.\} and Dai, \{Z. G.\} and Danzengluobu and Diao, \{Y. X.\} and Dong, \{X. Q.\} and Duan, \{K. K.\} and Fan, \{J. H.\} and Fan, \{Y. Z.\} and J. Fang and Fang, \{J. H.\} and K. Fang and Feng, \{C. F.\} and H. Feng and L. Feng and Feng, \{S. H.\} and Feng, \{X. T.\} and Y. Feng and Feng, \{Y. L.\} and S. Gabici and B. Gao and Gao, \{C. D.\} and Q. Gao and W. Gao and Gao, \{W. K.\} and Ge, \{M. M.\} and Ge, \{T. T.\} and Geng, \{L. S.\} and G. Giacinti and Gong, \{G. H.\} and Gou, \{Q. B.\} and Gu, \{M. H.\} and Guo, \{F. L.\} and J. Guo and Guo, \{X. L.\} and Guo, \{Y. Q.\} and Guo, \{Y. Y.\} and Han, \{Y. A.\} and Hannuksela, \{O. A.\} and M. Hasan and He, \{H. H.\} and He, \{H. N.\} and He, \{J. Y.\} and He, \{X. Y.\} and Y. He and S. Hern{\'a}ndez-Cadena and Hor, \{Y. K.\} and Hou, \{B. W.\} and C. Hou and X. Hou and Hu, \{H. B.\} and Hu, \{S. C.\} and C. Huang and Huang, \{D. H.\} and Huang, \{J. J.\} and Huang, \{T. Q.\} and Huang, \{W. J.\} and Huang, \{X. T.\} and Huang, \{X. Y.\} and Y. Huang and Huang, \{Y. Y.\} and Ji, \{X. L.\} and Jia, \{H. Y.\} and K. Jia and Jiang, \{H. B.\} and K. Jiang and Jiang, \{X. W.\} and Jiang, \{Z. J.\} and M. Jin and S. Kaci and Kang, \{M. M.\} and I. Karpikov and D. Khangulyan and D. Kuleshov and K. Kurinov and Li, \{B. B.\} and Cheng Li and Cong Li and D. Li and F. Li and Li, \{H. B.\} and Li, \{H. C.\} and Jian Li and Jie Li and K. Li and L. Li and Li, \{R. L.\} and Li, \{S. D.\} and Li, \{T. Y.\} and Li, \{W. L.\} and Li, \{X. R.\} and Xin Li and Li, \{Y. Z.\} and Zhe Li and Zhuo Li and Liang, \{E. W.\} and Liang, \{Y. F.\} and Lin, \{S. J.\} and B. Liu and C. Liu and D. Liu and Liu, \{D. B.\} and H. Liu and Liu, \{H. D.\} and J. Liu and Liu, \{J. L.\} and Liu, \{J. R.\} and Liu, \{M. Y.\} and Liu, \{R. Y.\} and Liu, \{S. M.\} and W. Liu and X. Liu and Y. Liu and Y. Liu and Liu, \{Y. N.\} and Lou, \{Y. Q.\} and Q. Luo and Y. Luo and Lv, \{H. K.\} and Ma, \{B. Q.\} and Ma, \{L. L.\} and Ma, \{X. H.\} and Mao, \{J. R.\} and Z. Min and W. Mitthumsiri and Mou, \{G. B.\} and Mu, \{H. J.\} and Nan, \{Y. C.\} and A. Neronov and Ng, \{K. C.Y.\} and Ni, \{M. Y.\} and L. Nie and Ou, \{L. J.\} and P. Pattarakijwanich and Pei, \{Z. Y.\} and Qi, \{J. C.\} and Qi, \{M. Y.\} and Qin, \{J. J.\} and A. Raza and Ren, \{C. Y.\} and D. Ruffolo and A. S{\'a}iz and M. Saeed and D. Semikoz and L. Shao and O. Shchegolev and Shen, \{Y. Z.\} and Sheng, \{X. D.\} and Shi, \{Z. D.\} and Shu, \{F. W.\} and Song, \{H. C.\} and Stenkin, \{Yu V.\} and V. Stepanov and Y. Su and Sun, \{D. X.\} and H. Sun and Sun, \{Q. N.\} and Sun, \{X. N.\} and Sun, \{Z. B.\} and Tabasam, \{N. H.\} and J. Takata and Tam, \{P. H.T.\} and Tan, \{H. B.\} and Tang, \{Q. W.\} and R. Tang and Tang, \{Z. B.\} and Tian, \{W. W.\} and Tong, \{C. N.\} and Wan, \{L. H.\} and C. Wang and Wang, \{G. W.\} and Wang, \{H. G.\} and Wang, \{H. H.\} and Wang, \{J. C.\} and K. Wang and Kai Wang and Kai Wang and Wang, \{L. P.\} and Wang, \{L. Y.\} and Wang, \{L. Y.\} and R. Wang and W. Wang and Wang, \{X. G.\} and Wang, \{X. J.\} and Wang, \{X. Y.\} and Y. Wang and Wang, \{Y. D.\} and Wang, \{Z. H.\} and Wang, \{Z. X.\} and Zheng Wang and Wei, \{D. M.\} and Wei, \{J. J.\} and Wei, \{Y. J.\} and T. Wen and Weng, \{S. S.\} and Wu, \{C. Y.\} and Wu, \{H. R.\} and Wu, \{Q. W.\} and S. Wu and Wu, \{X. F.\} and Wu, \{Y. S.\} and Xi, \{S. Q.\} and J. Xia and Xia, \{J. J.\} and Xiang, \{G. M.\} and Xiao, \{D. X.\} and G. Xiao and Xin, \{Y. L.\} and Y. Xing and Xiong, \{D. R.\} and Z. Xiong and Xu, \{D. L.\} and Xu, \{R. F.\} and Xu, \{R. X.\} and Xu, \{W. L.\} and L. Xue and Yan, \{D. H.\} and Yan, \{J. Z.\} and T. Yan and Yang, \{C. W.\} and Yang, \{C. Y.\} and Yang, \{F. F.\} and Yang, \{L. L.\} and Yang, \{M. J.\} and Yang, \{R. Z.\} and Yang, \{W. X.\} and Yao, \{Y. H.\} and Yao, \{Z. G.\} and Ye, \{X. A.\} and Yin, \{L. Q.\} and N. Yin and You, \{X. H.\} and You, \{Z. Y.\} and Yu, \{Y. H.\} and Q. Yuan and H. Yue and Zeng, \{H. D.\} and Zeng, \{T. X.\} and W. Zeng and M. Zha and Zhang, \{B. B.\} and Zhang, \{B. T.\} and F. Zhang and H. Zhang and Zhang, \{H. M.\} and Zhang, \{H. Y.\} and Zhang, \{J. L.\} and Li Zhang and Zhang, \{P. F.\} and Zhang, \{P. P.\} and R. Zhang and Zhang, \{S. R.\} and Zhang, \{S. S.\} and Zhang, \{W. Y.\} and X. Zhang and Zhang, \{X. P.\} and Yi Zhang and Yong Zhang and Zhang, \{Z. P.\} and J. Zhao and L. Zhao and Zhao, \{L. Z.\} and Zhao, \{S. P.\} and Zhao, \{X. H.\} and Zhao, \{Z. H.\} and F. Zheng and Zhong, \{W. J.\} and B. Zhou and H. Zhou and Zhou, \{J. N.\} and M. Zhou and P. Zhou and R. Zhou and Zhou, \{X. X.\} and Zhou, \{X. X.\} and Zhu, \{B. Y.\} and Zhu, \{C. G.\} and Zhu, \{F. R.\} and H. Zhu and Zhu, \{K. J.\} and Zou, \{Y. C.\} and X. Zuo",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s). Published by the American Astronomical Society.",

year = "2025",

month = mar,

day = "20",

doi = "10.3847/2041-8213/adb97d",

language = "英语",

volume = "982",

journal = "Astrophysical Journal Letters",

issn = "2041-8205",

publisher = "American Astronomical Society",

number = "1",

}

Cao, Z, Aharonian, F, Bai, YX, Bao, YW, Bastieri, D, Bi, XJ, Bi, YJ, Bian, W, Bukevich, AV, Cai, CM, Cao, WY, Cao, Z, Chang, J, Chang, JF, Chen, AM, Chen, ES, Chen, HX, Chen, L, Chen, L, Chen, MJ, Chen, ML, Chen, QH, Chen, S, Chen, SH, Chen, SZ, Chen, TL, Chen, XB, Chen, XJ, Chen, Y, Cheng, N, Cheng, YD, Chu, MC, Cui, MY, Cui, SW, Cui, XH, Cui, YD, Dai, BZ, Dai, HL, Dai, ZG, Danzengluobu, Diao, YX, Dong, XQ, Duan, KK, Fan, JH, Fan, YZ, Fang, J, Fang, JH, Fang, K, Feng, CF, Feng, H, Feng, L, Feng, SH, Feng, XT, Feng, Y, Feng, YL, Gabici, S, Gao, B, Gao, CD, Gao, Q, Gao, W, Gao, WK, Ge, MM, Ge, TT, Geng, LS, Giacinti, G, Gong, GH, Gou, QB, Gu, MH, Guo, FL, Guo, J, Guo, XL, Guo, YQ, Guo, YY, Han, YA, Hannuksela, OA, Hasan, M, He, HH, He, HN, He, JY, He, XY, He, Y, Hernández-Cadena, S, Hor, YK, Hou, BW, Hou, C, Hou, X, Hu, HB, Hu, SC, Huang, C, Huang, DH, Huang, JJ, Huang, TQ, Huang, WJ, Huang, XT, Huang, XY, Huang, Y, Huang, YY, Ji, XL, Jia, HY, Jia, K, Jiang, HB, Jiang, K, Jiang, XW, Jiang, ZJ, Jin, M, Kaci, S, Kang, MM, Karpikov, I, Khangulyan, D, Kuleshov, D, Kurinov, K, Li, BB, Li, C, Li, C, Li, D, Li, F, Li, HB, Li, HC, Li, J, Li, J, Li, K, Li, L, Li, RL, Li, SD, Li, TY, Li, WL, Li, XR, Li, X, Li, YZ, Li, Z, Li, Z, Liang, EW, Liang, YF, Lin, SJ, Liu, B, Liu, C, Liu, D, Liu, DB, Liu, H, Liu, HD, Liu, J, Liu, JL, Liu, JR, Liu, MY, Liu, RY, Liu, SM, Liu, W, Liu, X, Liu, Y, Liu, Y, Liu, YN, Lou, YQ, Luo, Q, Luo, Y, Lv, HK, Ma, BQ, Ma, LL, Ma, XH, Mao, JR, Min, Z, Mitthumsiri, W, Mou, GB, Mu, HJ, Nan, YC, Neronov, A, Ng, KCY, Ni, MY, Nie, L, Ou, LJ, Pattarakijwanich, P, Pei, ZY, Qi, JC, Qi, MY, Qin, JJ, Raza, A, Ren, CY, Ruffolo, D, Sáiz, A, Saeed, M, Semikoz, D, Shao, L, Shchegolev, O, Shen, YZ, Sheng, XD, Shi, ZD, Shu, FW, Song, HC, Stenkin, YV, Stepanov, V, Su, Y, Sun, DX, Sun, H, Sun, QN, Sun, XN, Sun, ZB, Tabasam, NH, Takata, J, Tam, PHT, Tan, HB, Tang, QW, Tang, R, Tang, ZB, Tian, WW, Tong, CN, Wan, LH, Wang, C, Wang, GW, Wang, HG, Wang, HH, Wang, JC, Wang, K, Wang, K, Wang, K, Wang, LP, Wang, LY, Wang, LY, Wang, R, Wang, W, Wang, XG, Wang, XJ, Wang, XY, Wang, Y, Wang, YD, Wang, ZH, Wang, ZX, Wang, Z, Wei, DM, Wei, JJ, Wei, YJ, Wen, T, Weng, SS, Wu, CY, Wu, HR, Wu, QW, Wu, S, Wu, XF, Wu, YS, Xi, SQ, Xia, J, Xia, JJ, Xiang, GM, Xiao, DX, Xiao, G, Xin, YL, Xing, Y, Xiong, DR, Xiong, Z, Xu, DL, Xu, RF, Xu, RX, Xu, WL, Xue, L, Yan, DH, Yan, JZ, Yan, T, Yang, CW, Yang, CY, Yang, FF, Yang, LL, Yang, MJ, Yang, RZ, Yang, WX, Yao, YH, Yao, ZG, Ye, XA, Yin, LQ, Yin, N, You, XH, You, ZY, Yu, YH, Yuan, Q, Yue, H, Zeng, HD, Zeng, TX, Zeng, W, Zha, M, Zhang, BB, Zhang, BT, Zhang, F, Zhang, H, Zhang, HM, Zhang, HY, Zhang, JL, Zhang, L, Zhang, PF, Zhang, PP, Zhang, R, Zhang, SR, Zhang, SS, Zhang, WY, Zhang, X, Zhang, XP, Zhang, Y, Zhang, Y, Zhang, ZP, Zhao, J, Zhao, L, Zhao, LZ, Zhao, SP, Zhao, XH, Zhao, ZH, Zheng, F, Zhong, WJ, Zhou, B, Zhou, H, Zhou, JN, Zhou, M, Zhou, P, Zhou, R, Zhou, XX, Zhou, XX, Zhu, BY, Zhu, CG, Zhu, FR, Zhu, H, Zhu, KJ, Zou, YC & Zuo, X 2025, 'Constraining the Cosmic-Ray Energy Based on Observations of Nearby Galaxy Clusters by LHAASO', Astrophysical Journal Letters, 卷 982, 号码 1, L19. https://doi.org/10.3847/2041-8213/adb97d

TY - JOUR

T1 - Constraining the Cosmic-Ray Energy Based on Observations of Nearby Galaxy Clusters by LHAASO

AU - Cao, Zhen

AU - Aharonian, F.

AU - Bai, Y. X.

AU - Bao, Y. W.

AU - Bastieri, D.

AU - Bi, X. J.

AU - Bi, Y. J.

AU - Bian, W.

AU - Bukevich, A. V.

AU - Cai, C. M.

AU - Cao, W. Y.

AU - Cao, Zhe

AU - Chang, J.

AU - Chang, J. F.

AU - Chen, A. M.

AU - Chen, E. S.

AU - Chen, H. X.

AU - Chen, Liang

AU - Chen, Long

AU - Chen, M. J.

AU - Chen, M. L.

AU - Chen, Q. H.

AU - Chen, S.

AU - Chen, S. H.

AU - Chen, S. Z.

AU - Chen, T. L.

AU - Chen, X. B.

AU - Chen, X. J.

AU - Chen, Y.

AU - Cheng, N.

AU - Cheng, Y. D.

AU - Chu, M. C.

AU - Cui, M. Y.

AU - Cui, S. W.

AU - Cui, X. H.

AU - Cui, Y. D.

AU - Dai, B. Z.

AU - Dai, H. L.

AU - Dai, Z. G.

AU - Danzengluobu,

AU - Diao, Y. X.

AU - Dong, X. Q.

AU - Duan, K. K.

AU - Fan, J. H.

AU - Fan, Y. Z.

AU - Fang, J.

AU - Fang, J. H.

AU - Fang, K.

AU - Feng, C. F.

AU - Feng, H.

AU - Feng, L.

AU - Feng, S. H.

AU - Feng, X. T.

AU - Feng, Y.

AU - Feng, Y. L.

AU - Gabici, S.

AU - Gao, B.

AU - Gao, C. D.

AU - Gao, Q.

AU - Gao, W.

AU - Gao, W. K.

AU - Ge, M. M.

AU - Ge, T. T.

AU - Geng, L. S.

AU - Giacinti, G.

AU - Gong, G. H.

AU - Gou, Q. B.

AU - Gu, M. H.

AU - Guo, F. L.

AU - Guo, J.

AU - Guo, X. L.

AU - Guo, Y. Q.

AU - Guo, Y. Y.

AU - Han, Y. A.

AU - Hannuksela, O. A.

AU - Hasan, M.

AU - He, H. H.

AU - He, H. N.

AU - He, J. Y.

AU - He, X. Y.

AU - He, Y.

AU - Hernández-Cadena, S.

AU - Hor, Y. K.

AU - Hou, B. W.

AU - Hou, C.

AU - Hou, X.

AU - Hu, H. B.

AU - Hu, S. C.

AU - Huang, C.

AU - Huang, D. H.

AU - Huang, J. J.

AU - Huang, T. Q.

AU - Huang, W. J.

AU - Huang, X. T.

AU - Huang, X. Y.

AU - Huang, Y.

AU - Huang, Y. Y.

AU - Ji, X. L.

AU - Jia, H. Y.

AU - Jia, K.

AU - Jiang, H. B.

AU - Jiang, K.

AU - Jiang, X. W.

AU - Jiang, Z. J.

AU - Jin, M.

AU - Kaci, S.

AU - Kang, M. M.

AU - Karpikov, I.

AU - Khangulyan, D.

AU - Kuleshov, D.

AU - Kurinov, K.

AU - Li, B. B.

AU - Li, Cheng

AU - Li, Cong

AU - Li, D.

AU - Li, F.

AU - Li, H. B.

AU - Li, H. C.

AU - Li, Jian

AU - Li, Jie

AU - Li, K.

AU - Li, L.

AU - Li, R. L.

AU - Li, S. D.

AU - Li, T. Y.

AU - Li, W. L.

AU - Li, X. R.

AU - Li, Xin

AU - Li, Y. Z.

AU - Li, Zhe

AU - Li, Zhuo

AU - Liang, E. W.

AU - Liang, Y. F.

AU - Lin, S. J.

AU - Liu, B.

AU - Liu, C.

AU - Liu, D.

AU - Liu, D. B.

AU - Liu, H.

AU - Liu, H. D.

AU - Liu, J.

AU - Liu, J. L.

AU - Liu, J. R.

AU - Liu, M. Y.

AU - Liu, R. Y.

AU - Liu, S. M.

AU - Liu, W.

AU - Liu, X.

AU - Liu, Y.

AU - Liu, Y. N.

AU - Lou, Y. Q.

AU - Luo, Q.

AU - Luo, Y.

AU - Lv, H. K.

AU - Ma, B. Q.

AU - Ma, L. L.

AU - Ma, X. H.

AU - Mao, J. R.

AU - Min, Z.

AU - Mitthumsiri, W.

AU - Mou, G. B.

AU - Mu, H. J.

AU - Nan, Y. C.

AU - Neronov, A.

AU - Ng, K. C.Y.

AU - Ni, M. Y.

AU - Nie, L.

AU - Ou, L. J.

AU - Pattarakijwanich, P.

AU - Pei, Z. Y.

AU - Qi, J. C.

AU - Qi, M. Y.

AU - Qin, J. J.

AU - Raza, A.

AU - Ren, C. Y.

AU - Ruffolo, D.

AU - Sáiz, A.

AU - Saeed, M.

AU - Semikoz, D.

AU - Shao, L.

AU - Shchegolev, O.

AU - Shen, Y. Z.

AU - Sheng, X. D.

AU - Shi, Z. D.

AU - Shu, F. W.

AU - Song, H. C.

AU - Stenkin, Yu V.

AU - Stepanov, V.

AU - Su, Y.

AU - Sun, D. X.

AU - Sun, H.

AU - Sun, Q. N.

AU - Sun, X. N.

AU - Sun, Z. B.

AU - Tabasam, N. H.

AU - Takata, J.

AU - Tam, P. H.T.

AU - Tan, H. B.

AU - Tang, Q. W.

AU - Tang, R.

AU - Tang, Z. B.

AU - Tian, W. W.

AU - Tong, C. N.

AU - Wan, L. H.

AU - Wang, C.

AU - Wang, G. W.

AU - Wang, H. G.

AU - Wang, H. H.

AU - Wang, J. C.

AU - Wang, K.

AU - Wang, Kai

AU - Wang, L. P.

AU - Wang, L. Y.

AU - Wang, R.

AU - Wang, W.

AU - Wang, X. G.

AU - Wang, X. J.

AU - Wang, X. Y.

AU - Wang, Y.

AU - Wang, Y. D.

AU - Wang, Z. H.

AU - Wang, Z. X.

AU - Wang, Zheng

AU - Wei, D. M.

AU - Wei, J. J.

AU - Wei, Y. J.

AU - Wen, T.

AU - Weng, S. S.

AU - Wu, C. Y.

AU - Wu, H. R.

AU - Wu, Q. W.

AU - Wu, S.

AU - Wu, X. F.

AU - Wu, Y. S.

AU - Xi, S. Q.

AU - Xia, J.

AU - Xia, J. J.

AU - Xiang, G. M.

AU - Xiao, D. X.

AU - Xiao, G.

AU - Xin, Y. L.

AU - Xing, Y.

AU - Xiong, D. R.

AU - Xiong, Z.

AU - Xu, D. L.

AU - Xu, R. F.

AU - Xu, R. X.

AU - Xu, W. L.

AU - Xue, L.

AU - Yan, D. H.

AU - Yan, J. Z.

AU - Yan, T.

AU - Yang, C. W.

AU - Yang, C. Y.

AU - Yang, F. F.

AU - Yang, L. L.

AU - Yang, M. J.

AU - Yang, R. Z.

AU - Yang, W. X.

AU - Yao, Y. H.

AU - Yao, Z. G.

AU - Ye, X. A.

AU - Yin, L. Q.

AU - Yin, N.

AU - You, X. H.

AU - You, Z. Y.

AU - Yu, Y. H.

AU - Yuan, Q.

AU - Yue, H.

AU - Zeng, H. D.

AU - Zeng, T. X.

AU - Zeng, W.

AU - Zha, M.

AU - Zhang, B. B.

AU - Zhang, B. T.

AU - Zhang, F.

AU - Zhang, H.

AU - Zhang, H. M.

AU - Zhang, H. Y.

AU - Zhang, J. L.

AU - Zhang, Li

AU - Zhang, P. F.

AU - Zhang, P. P.

AU - Zhang, R.

AU - Zhang, S. R.

AU - Zhang, S. S.

AU - Zhang, W. Y.

AU - Zhang, X.

AU - Zhang, X. P.

AU - Zhang, Yi

AU - Zhang, Yong

AU - Zhang, Z. P.

AU - Zhao, J.

AU - Zhao, L.

AU - Zhao, L. Z.

AU - Zhao, S. P.

AU - Zhao, X. H.

AU - Zhao, Z. H.

AU - Zheng, F.

AU - Zhong, W. J.

AU - Zhou, B.

AU - Zhou, H.

AU - Zhou, J. N.

AU - Zhou, M.

AU - Zhou, P.

AU - Zhou, R.

AU - Zhou, X. X.

AU - Zhu, B. Y.

AU - Zhu, C. G.

AU - Zhu, F. R.

AU - Zhu, H.

AU - Zhu, K. J.

AU - Zou, Y. C.

AU - Zuo, X.

PY - 2025/3/20

Y1 - 2025/3/20

N2 - Galaxy clusters act as reservoirs of high-energy cosmic rays (CRs). As CRs propagate through the intracluster medium, they generate diffuse γ-rays detectable by arrays such as LHAASO. These γ-rays result from proton-proton (pp) collisions of very high-energy cosmic rays or inverse Compton (IC) scattering of positron-electron pairs created by pγ interactions of ultra-high-energy cosmic rays (UHECRs). We analyzed diffuse γ-ray emission from the Coma, Perseus, and Virgo clusters using LHAASO data. Diffuse emission was modeled as a disk of radius R500 for each cluster while accounting for point sources. No significant diffuse emission was detected, yielding 95% confidence level (C.L.) upper limits on the γ-ray flux: for WCDA (1-25 TeV) and KM2A (>25 TeV), less than (49.4, 13.7, 54.0) and (1.34, 1.14, 0.40) × 10−14 ph cm−2 s−1 for Coma, Perseus, and Virgo, respectively. The γ-ray upper limits can be used to derive model-independent constraints on the integral energy of cosmic ray protons above 10 TeV (corresponding to the LHAASO observational range >1 TeV under the pp scenario) to be less than (1.96, 0.59, 0.08) × 1061 erg. The absence of detectable annuli/ring-like structures, indicative of cluster accretion or merging shocks, imposes further constraints on models in which the UHECRs are accelerated in the merging shocks of galaxy clusters.

AB - Galaxy clusters act as reservoirs of high-energy cosmic rays (CRs). As CRs propagate through the intracluster medium, they generate diffuse γ-rays detectable by arrays such as LHAASO. These γ-rays result from proton-proton (pp) collisions of very high-energy cosmic rays or inverse Compton (IC) scattering of positron-electron pairs created by pγ interactions of ultra-high-energy cosmic rays (UHECRs). We analyzed diffuse γ-ray emission from the Coma, Perseus, and Virgo clusters using LHAASO data. Diffuse emission was modeled as a disk of radius R500 for each cluster while accounting for point sources. No significant diffuse emission was detected, yielding 95% confidence level (C.L.) upper limits on the γ-ray flux: for WCDA (1-25 TeV) and KM2A (>25 TeV), less than (49.4, 13.7, 54.0) and (1.34, 1.14, 0.40) × 10−14 ph cm−2 s−1 for Coma, Perseus, and Virgo, respectively. The γ-ray upper limits can be used to derive model-independent constraints on the integral energy of cosmic ray protons above 10 TeV (corresponding to the LHAASO observational range >1 TeV under the pp scenario) to be less than (1.96, 0.59, 0.08) × 1061 erg. The absence of detectable annuli/ring-like structures, indicative of cluster accretion or merging shocks, imposes further constraints on models in which the UHECRs are accelerated in the merging shocks of galaxy clusters.

UR - https://www.scopus.com/pages/publications/105000225954

U2 - 10.3847/2041-8213/adb97d

DO - 10.3847/2041-8213/adb97d

M3 - 文章

AN - SCOPUS:105000225954

SN - 2041-8205

VL - 982

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

IS - 1

M1 - L19

ER -

Constraining the Cosmic-Ray Energy Based on Observations of Nearby Galaxy Clusters by LHAASO

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