×
近期发现有不法分子冒充我刊与作者联系,借此进行欺诈等不法行为,请广大作者加以鉴别,如遇诈骗行为,请第一时间与我刊编辑部联系确认(《中国物理C》(英文)编辑部电话:010-88235947,010-88236950),并作报警处理。
本刊再次郑重声明:
(1)本刊官方网址为cpc.ihep.ac.cn和https://iopscience.iop.org/journal/1674-1137
(2)本刊采编系统作者中心是投稿的唯一路径,该系统为ScholarOne远程稿件采编系统,仅在本刊投稿网网址(https://mc03.manuscriptcentral.com/cpc)设有登录入口。本刊不接受其他方式的投稿,如打印稿投稿、E-mail信箱投稿等,若以此种方式接收投稿均为假冒。
(3)所有投稿均需经过严格的同行评议、编辑加工后方可发表,本刊不存在所谓的“编辑部内部征稿”。如果有人以“编辑部内部人员”名义帮助作者发稿,并收取发表费用,均为假冒。
                  
《中国物理C》(英文)编辑部
2024年10月30日

Constraints on dark matter annihilation and decay from the isotropic gamma-ray background

  • We study the constraints on dark matter (DM) annihilation/decay from the Fermi-LAT Isotropic Gamma-Ray Background (IGRB) observation. We consider the contributions from both extragalactic and galactic DM components. For DM annihilation, the evolution of extragalactic DM halos is taken into account. We find that the IGRB annihilation constraints under some DM subhalo models can be comparable to those derived from the observations of dwarf spheroidal galaxies and CMB. We also use the IGRB results to constrain the parameter regions accounting for the latest AMS-02 electron-positron anomaly. We find that the majority of DM annihilation/decay channels are strongly disfavored by the latest Fermi-LAT IGRB observation; only DM decays to μ+μ- and 4μ channels may be valid.
      PCAS:
  • 加载中
  • [1] P. A. R. Ade, N. Aghanim. et al (Planck Collaboration) AA, 594:A13 (2016)
    [2] C. Consolandi et al (the AMS-02 Collaboration), arXiv:1402.0467
    [3] O. Adriani, G. C. Barbarino, G. A. Bazilevskaya et al, Nature, 458:607
    [4] S. Torii, T. Yamagami, T. Tamura et al, arXiv:0809.0760
    [5] J. Chang, J. H. Adams, H. S. Ahn et al, Nature, 456:362 (2008)
    [6] F. Aharonian, A. G. Akhperjanian, U. Barres de Almeida et al, Physical Review Letters, 101:261104 (2008)
    [7] F. Aharonian, A. G. Akhperjanian, G. Anton et al, AA, 508:561 (2009)
    [8] A. A. Abdo, M. Ackermann, M. Ajello et al, Physical Review Letters, 102:181101 (2009)
    [9] M. Aguilar, D. Aisa, A. Alvino et al, Physical Review Letters, 113:121102
    [10] L. Accardo, M. Aguilar, D. Aisa et al, Physical Review Letters, 113:121101
    [11] C. E. Fichtel, G. A. Simpson, and D. J Thompson. ApJ, 222:833 (1978)
    [12] P. Sreekumar, D. L. Bertsch, B. L. Dingus et al, ApJ, 494:523 (1998)
    [13] A. A. Abdo, M. Ackermann, M. Ajello et al, Physical Review Letters, 104:101101 (2010)
    [14] M. Ackermann, M. Ajello, A. Albert et al, ApJ, 799:86 (2015)
    [15] M. Cirelli, G. Corcella, A. Hektor et al, Phys, 3, 051 (2011)
    [16] P. Ullio, L. Bergstrm, J. Edsj, and C Lacey, Phys, 66:123502 (2002)
    [17] J. E. Taylor and J Silk, MNRAS, 339:505 (2003)
    [18] S. Profumo and T. E Jeltema, J. Cosmology Astropart. Phys., 7:020 (2009)
    [19] M. Kawasaki, K. Kohri, and K. Nakayama, Phys. Rev. D, 80:023517 (2009)
    [20] A. A. Abdo, M. Ackermann, M. Ajello et al, J. Cosmology Astropart. Phys., 4:014 (2010)
    [21] Q. Yuan, B. Yue, X.-J. Bi, X. Chen, and X Zhang, J. Cosmology Astropart. Phys., 10:023 (2010)
    [22] M. Cirelli, P. Panci, and P. D. Serpico, Nuclear Physics B, 840:284 (2010)
    [23] C.-R. Chen, S. K. Mandal, and F. Takahashi, J. Cosmology Astropart. Phys., 1:023 (2010)
    [24] S. Blanchet and J. Lavalle, J. Cosmology Astropart. Phys., 11:021 (2012)
    [25] M. Cirelli, E. Moulin, P. Panci, P. D. Serpico, and A. Viana, Phys. Rev. D, 86:083506 (2012)
    [26] K. N. Abazajian, S. Blanchet, and J. P Harding, Phys. Rev. D, 85:043509 (2012)
    [27] T. Bringmann, F. Calore, M. Di Mauro, and F. Donato, Phys. Rev. D, 89:023012
    [28] I. Cholis, D. Hooper, and S. D. McDermott, J. Cosmology Astropart. Phys., 2:014 (2014)
    [29] M. Ajello, D. Gasparrini, M. Snchez-Conde et al, ApJ, 800:L27 (2015)
    [30] The Fermi LAT Collaboration, J. Cosmology Astropart. Phys.,9:008 (2015)
    [31] M. Di Mauro and F. Donato, Phys. Rev. D, 91:123001 (2015)
    [32] S. Ando and K. Ishiwata, J. Cosmology Astropart. Phys., 5:024 (2015)
    [33] J.-Q. Xia, A. Cuoco, E. Branchini, and M. Viel, ApJS, 217:15 (2015)
    [34] A. Cuoco, J.-Q. Xia, M. Regis et al, ApJS, 221:29 (2015)
    [35] M. Ackermann, M. Ajello, A. Allafort et al, ApJ, 755:164 (2012)
    [36] B. C. Lacki, S. Horiuchi, and J. F. Beacom, ApJ, 786:40 (2014)
    [37] T. M. Venters and V. Pavlidou, ApJ, 737:80
    [38] D. Yan, H. Zeng, and L. Zhang, MNRAS, 422:1779 (2012)
    [39] H. Zeng, D. Yan, and L. Zhang, MNRAS, 431:997 (2013)
    [40] H. D. Zeng, D. H. Yan, Y. Q. Sun, and L. Zhang, ApJ, 749:151 (2012)
    [41] Y. Inoue, ApJ, 733:66 (2011)
    [42] M. Di Mauro, F. Calore, F. Donato, M. Ajello, and L. Latronico, ApJ, 780:161 (2014)
    [43] M. Fornasa and M. A. Snchez-Conde, Phys. Rep., 598:1 (2015)
    [44] M. Ackermann, M. Ajello, A. Albert et al, Physical Review Letters, 116:151105 (2016)
    [45] G. L. Bryan and M. L. Norman, ApJ, 495:80 (1998)
    [46] J. F. Navarro, C. S. Frenk, and S. D. M. White, ApJ, 462:563 (1996)
    [47] J. S. Bullock, T. S. Kolatt, Y. Sigad et al, MNRAS, 321:559 (2001)
    [48] V. R. Eke, S. Cole, and C. S. Frenk, MNRAS, 282, (1996)
    [49] A. V. Macci, A. A. Dutton, and F. C. van den Bosch, MNRAS, 391:1940 (2008)
    [50] K. A. Olive (Particle Data Group), Chinese Physics C, 38:090001 (2014)
    [51] H. Mo, F. C. van den Bosch, and S. White, Galaxy Formation and Evolution (Cambridge, UK:Cambridge University Press, 2010)
    [52] S. M. Carroll, W. H. Press, and E. L. Turner, ARAA, 30:499 (1992)
    [53] J. M. Bardeen, J. R. Bond, N. Kaiser, and A. S. Szalay, ApJ, 304:15 (1986)
    [54] R. C. Gilmore, R. S. Somerville, J. R. Primack, and A. Domnguez, MNRAS, 422:3189 (2012)
    [55] R. J. Gould and G. Schrder, Physical Review Letters, 16:252 (1996)
    [56] F. W. Stecker, O. C. de Jager, and M. H. Salamon, ApJl, 390:L49 (1992)
    [57] M. Ackermann, M. Ajello, A. Allafort et al, J. Cosmology Astropart. Phys., 5:025 (2010)
    [58] Q. Yuan, P.-F. Yin, X.-J. Bi, X.-M. Zhang, and S.-H. Zhu, Phys. Rev. D, 82:023506 (2010)
    [59] E. Nezri, R. White, C. Combet et al, MNRAS, 425, 477 (2012)
    [60] A. Abramowski, F. Acero, F. Aharonian et al, Physical Review Letters, 106:161301 (2011)
    [61] M. Ackermann, A. Albert, B. Anderson et al, Phys. Rev. D, 89:042001 (2014)
    [62] M. Ackermann, A. Albert, B. Anderson et al, Physical Review Letters, 115:231301 (2015)
    [63] M. Boudaud, S. Aupetit, S. Caroff et al, AA, 575:A67 (2015)
    [64] X. Li, Z.-Q. Shen, B.-Q. Lu et al, Physics Letters B, 749:267 (2015)
    [65] E. Carqun, M. A. Daz, G. A. Gmez-Vargas, B. Panes, and N. Viaux, Physics of the Dark Universe, 11:1 (2016)
    [66] T. Basak, S. Mohanty, and G. Tomar, Journal of High Energy Physics, 3:62 (2016)
    [67] M. Kamionkowski and S. M. Koushiappas, Phys. Rev. D, 77:103509 (2008)
    [68] M. Kamionkowski, S. M. Koushiappas, and M. Kuhlen, Phys. Rev. D, 81:043532 (2010)
    [69] L. J. Rosenberg and K. A. van Bibber, Phys. Rep., 325:1 (2000)
    [70] S. J. Asztalos, L. J. Rosenberg, K. van Bibber, P. Sikivie, and K. Zioutas, Annual Review of Nuclear and Particle Science, 56:293 (2006)
    [71] J. F. Navarro, C. S. Frenk, and S. D. M. White, ApJ, 490:493 (1997)
    [72] C. Giocoli, G. Tormen, R. K. Sheth, and F. C. van den Bosch, MNRAS, 404:502 (2010)
    [73] M. Maciejewski, M. Vogelsberger, S. D. M. White, and V. Springel, MNRAS, 415:2475 (2011)
    [74] G. R. Blumenthal and R. J. Gould, Reviews of Modern Physics, 42:237 (1970)
    [75] F. C. Jones, Physical Review, 167:1159 (1968)
    [76] S.-J. Lin, Q. Yuan, and X.-J. Bi, Phys. Rev. D, 91:063508 (2015)
    [77] S.-J. Lin, X.-J. Bi, P.-F. Yin, and Z.-H. Yu, arXiv:1504.07230
    [78] K. Hamaguchi, T. Moroi, and K. Nakayama, Physics Letters B, 747:523 (2015)
    [79] M. Ibe, S. Matsumoto, S. Shirai, and T. T. Yanagida, Phys. Rev. D, 91:111701 (2015)
    [80] C.-H. Chen, C.-W. Chiang, and T. Nomura, Physics Letters B, 747:495 (2015)
    [81] I. V. Moskalenko and A. W. Strong, ApJ, 493:694 (1998)
    [82] A. W. Strong and I. V. Moskalenko, ApJ, 509:212 (1998)
    [83] Y. Yang, L. Feng, X. Huang et al, J. Cosmology Astropart. Phys., 12:020 (2011)
    [84] K. Murase and J. F. Beacom, J. Cosmology Astropart. Phys., 10:043 (2012)
    [85] K. C. Y. Ng, R. Laha, S. Campbell et al, Phys. Rev. D, 89, 083001 (2014)
  • 加载中

Get Citation
null. Constraints on dark matter annihilation and decay from the isotropic gamma-ray background[J]. Chinese Physics C, 2017, 41(4): 045104. doi: 10.1088/1674-1137/41/4/045104
null. Constraints on dark matter annihilation and decay from the isotropic gamma-ray background[J]. Chinese Physics C, 2017, 41(4): 045104.  doi: 10.1088/1674-1137/41/4/045104 shu
Milestone
Received: 2016-07-22
Revised: 2016-11-23
Fund

    Supported by National Natural Science Foundation of China (11475189, 11475191, 11135009), 973 Program of China (2013CB837000), Strategic Priority Research Program The Emergence of Cosmological Structures of the Chinese Academy of Sciences (XDB09000000)

Article Metric

Article Views(1706)
PDF Downloads(31)
Cited by(0)
Policy on re-use
To reuse of subscription content published by CPC, the users need to request permission from CPC, unless the content was published under an Open Access license which automatically permits that type of reuse.
通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索

Email This Article

Title:
Email:

Constraints on dark matter annihilation and decay from the isotropic gamma-ray background

Fund Project:  Supported by National Natural Science Foundation of China (11475189, 11475191, 11135009), 973 Program of China (2013CB837000), Strategic Priority Research Program The Emergence of Cosmological Structures of the Chinese Academy of Sciences (XDB09000000)

Abstract: We study the constraints on dark matter (DM) annihilation/decay from the Fermi-LAT Isotropic Gamma-Ray Background (IGRB) observation. We consider the contributions from both extragalactic and galactic DM components. For DM annihilation, the evolution of extragalactic DM halos is taken into account. We find that the IGRB annihilation constraints under some DM subhalo models can be comparable to those derived from the observations of dwarf spheroidal galaxies and CMB. We also use the IGRB results to constrain the parameter regions accounting for the latest AMS-02 electron-positron anomaly. We find that the majority of DM annihilation/decay channels are strongly disfavored by the latest Fermi-LAT IGRB observation; only DM decays to μ+μ- and 4μ channels may be valid.

    HTML

Reference (85)

目录

/

DownLoad:  Full-Size Img  PowerPoint
Return
Return