Progress of Theoretical Study on Dark Matter

LEE Xiguo

doi:10.11804/NuclPhysRev.33.04.392

Volume 33 Issue 4

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Article Navigation > Nuclear Physics Review > 2016 > 33(4): 392-408

LEE Xiguo. Progress of Theoretical Study on Dark Matter[J]. Nuclear Physics Review, 2016, 33(4): 392-408. doi: 10.11804/NuclPhysRev.33.04.392

Citation:

LEE Xiguo. Progress of Theoretical Study on Dark Matter[J]. Nuclear Physics Review, 2016, 33(4): 392-408. doi: 10.11804/NuclPhysRev.33.04.392

Progress of Theoretical Study on Dark Matter

doi: 10.11804/NuclPhysRev.33.04.392

LEE Xiguo

Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China

Funds: National Natural Science Foundation of China(11205221)

Received Date: 2016-04-01
Rev Recd Date: 2016-04-21
Publish Date: 2016-12-20

Abstract

A review of the evidence of the dark matter found in universe and the problems faced by the standard model. To address these issues as well as the possible relationship between the new physics beyond the standard model and dark matter, and given the selection condition of dark matter and possible candidates of the weakly-interacting massive particles (WIMPs). The correlation between the column surface density and the halo core radius of the dark matter halos of galaxies and cluster of galaxies is discussed, and the other models are compared. We find that the surface density within the halo characteristic radius r_* is not an universal quantity; The new model (hidden dark matter)proposed in the study of dark matter is described. At last, the research progress of dark matter experiment in China is commented. At the end of 2016, the first batch of DAMPE data may be given;No significant excess events of WIMPS were found in the first stage of both the CDEX and PandaX experiments located in the China Jinping Underground Laboratory(CJPL). Look forward to their the next stage of these experiments in CJPL.
- Dark matter,
- WIMPS,
- Detection of dark matter

References

[1]	James Lindesay. Foundations of Quantum Gravity[M]. New York:Cambridge University Press, 2013:309.
[2]	LU Jianxin. Theoretical physics and its frontier I[M]. Beijing:Peking University press, 2014:87; KOMATSU E. AStrophy J suppl. 2001, 192:18, ArXiv:1001:1538[astro-ph.co].(in Chinese) (卢建新. 理论物理及其交叉学科前沿I[M]. 北京:北京大学出版社, 2014:87.)
[3]	Planck Collaboration. 2014, arXiv:1303.5076v3.
[4]	CHANG Jin. Space exploration dark matter satellite[C]. The twenty-eighth Conference on space technology science, Lanzhou, 2015. (in Chinese) (常进. 空间探测暗物质卫星, 第二十八届空间技术科学中心会议, 兰州, 2015.)
[5]	LI Jin, YUE Qian. New Progress of CJPL and CDEX[C].The fteenth Nuclear Physics Conference, shanghai, 2013.
[6]	BORRIELLO A, SALUCCI P. Mon Not Roy Astron Soc, 2001, 323:285. arXiv:astro-ph/0001082.
[7]	CLOWE D, BRADAE M, GONZALEZ A H, et al. Astrophysics J. 2006, 648:1009.
[8]	del POPOLO A. Modern Physics D, 2014, 23:1430005.
[9]	JUNGMAN G, KAMIONKOWSKI M, GRIESI K. Phys Rep, 1996, 267, 195.
[10]	KAMIONKOWSKI M, MICHAEL K. Phys Rev D, 1991, 43, 1774; JUNGMAN G, KAMIONKOWSKI M. Phys Rev D, 1994, 49, 2316.
[11]	LI Tianjun. Review of dark matter models[C]. workshop on cosmology, dark matter, dark engery, Beijing. 2011.
[12]	HERRERO M. arXiv:hep-ph/9812242; BURGESS C P, MOORE G D. The Standard Model:A Primer[M]. New York:Cambridge University Press, 2007.
[13]	RANDALL L, SUNDRUM R. Phys Rev Lett, 1999, 83:3370.
[14]	JIA Bei, LEE Xiguo, ZHANG Pengming, Int J Theor Phys, 2008, 47:3391.
[15]	KOLINNIKOV S Y, KHLOPOVMY. Sov J Nucl Phys, 1982, 36:472.
[16]	GROSS C, LEBEDEV O, MAMBRINI Y. JHEP, 2015, 08:158.
[17]	Gupta A, Primulando R, Saraswat P. JHEP, 2015, 09:079.
[18]	FUKUDA Y, HAYAKAWA T, ICHIHARA E, et al. (SuperKamiokande Collaboration) Phys Rev Lett, 1998, 81:1562.
[19]	AHMAD Q R, ALLEN R C, ANDERSEN T C, et al. (SNO Collaboration). Phys Rev Lett, 2002, 89:011301.
[20]	AN F P, BAI J Z, BALANTEKIN A B, et al. Phys Rev Lett, 2012, 108:171803; ArXiv:1202.6181v1.
[21]	BAKER C A, DOYLE D D, GELTENBORT P, et al. Phys Rev Lett, 2006, 97:131801.
[22]	SAURYA D, DEBAPRASAD M, SOUMITRA S. JHEP, 2008, 05:042; Dey P, Mukhopafhyaya B, SenGupta S. Phys Rev D, 2009, 80:055029.
[23]	LEE Xiguo, JIA Bei. Nuclear Physics Review, 2001, 28(3):276. (in Chinese) (李希国, 贾贝. 原子核物理评论, 2011, 28:276.)
[24]	LEE Xiguo, BALDO M, DUAN Yishi. GRG, 2002, 34(10):1569; DUAN Yishi, LEE XIGUO. Helv Phys Acta, 1995, 68:513.
[25]	LEE Xiguo, LIU Ziyu, LI Yongqing, et al. Modern Physics Letter A, 2008, 23:1055.
[26]	Reyes L M, AGUILAR J E M. Class Quantum Grav, 2011, 28:215007.
[27]	CHANG Jin, FENG Lei, GUO JianHua, et al. ACIENTIA SINICA Physica, Mechanica & Astronomica, 2015, 45:119510. (in Chinese) (常进, 冯磊, 郭建华, 等. 中国科学:物理学力学天文学, 2015, 45:119510.)
[28]	Scherrer R J, Turner M S. Phys Rev D, 1986, 33:1585.
[29]	RUBIN V C, THONNARD N, FORD W K, Jr, Astrophys J, 1980, 238:471.
[30]	JONATHA N, Feng L. Ann Rev Astron AStrophys, 2010, 48:495.
[31]	GOLDBERG H. Phys Rev Lett, 1983, 50:1419.
[32]	KLEIN O. Z Phys, 1926, 37:895.
[33]	APPELQUIST T, CHENG H C, DOBRESCU B A. Phys Rev D, 2001, 67:055002.
[34]	DATTA A, DEY U K, SHAW A, et al. Phys Rev D, 2013, 87:076002.
[35]	DIMOPOULOS S, HOWE K, MARCH-RUSSELL J, et al. JHEP, 2015, 06:041.
[36]	CHENG H C, FENG J L, MATCHEV K T. Phys Rev Lett, 2002, 89:211301.
[37]	ATLAS Collaboration, ATLAS-CoNF-015-081.
[38]	CMS Collaboration, CMS PAS EXO-15-004.
[39]	HAN C, LEE H M, PARK M, et al. arXiv:1512.0637vl[hepph].
[40]	PECCEI R D, QUINN H R. Phys Rev lett, 1977, 38:1440.
[41]	ABBOTT L F, SIKIVIE P. Phys Lett, B, 1983, 120:133.
[42]	SHIFMAN M A, VAINSHTEIN A I, ZAKHAROV V I. Nucl Phys, B, 1980, 166:493.
[43]	ZHITNITSKY A R. Sov.J. Nucl Phys, 1980, 31:260.
[44]	RAFFELT G G. Lect Notes Pgys, 2008, 741:51.
[45]	BAE K J, HUH J H, KIM J E. JCAP, 2008, 0809:005.
[46]	YAMAGUCHI M, KAWASAKI M, YOKOYAMA J. Phys Rev Lett, 1999, 82:4578.
[47]	SIKIVIE P. Phys Rev Lett, 1983, 51:1415.
[48]	FENG J L, RAJARAMAN A, TAKAYAMA F. Phys Rev D, 2003, 68:063504.
[49]	WANG F, YANG J M. Eur Phys J C, 2004, 38:129.
[50]	ROSZKOWSKI L, RUIZ R, DE AUSTRI, et al. JHEP, 2005, 08:080. Nucl Phys B, 1982, 207:96.
[51]	DINE M, NELSON A E, NIR Y, et al. Phys Rev D, 1996, 53:2658.
[52]	ZWICKY F. Helvetica Physica Acta, 1933, 6:110.
[53]	FUSCO-FEMIANO R, HUGHES J P. Astrophys.J. 1994, 429:545.
[54]	EVANS N W, WILKINSON M I. MON Not R Astron Soc, 2000, 316:929.
[55]	MCMillan P L. Mon Not R Astron Soc, 2001, 414:2446.
[56]	RUBIN V C, FORD W K. Astrophys J. 1970, 159:379.
[57]	SABUROVA A, DEL POPOLO A. 2014, MNRAS, 445:3512.
[58]	KORMENDY J, FREEMAN K C. Astronomical Sosiety of the Paci c[C]. Sydney:IAU Symposium, 2004:377.
[59]	Milgrom M. APJ, 1983, 370:371.
[60]	BOYARSKY A, RUCHAYSKIY O, LAKUBOVSKYI D, et al. 2009, arXiv:0911.1774.
[61]	DEL POPOLO A, KROUP P. Astron, Astrophys, 2009, 502:733.
[62]	SILVA J M, LIMA J A S, SOUZA R E,et al. JCAP, 2016, 05:021.
[63]	DEL POPOLO A, LEE Xiguo. Baltic Astronomy, 2016, 25:195.
[64]	STADEL J. POTTER D, MOORE B, et al. 2009, Mon R Astron Soc, 398:21.
[65]	GOVERNATO F, BROOK C, MAYER L, et al. 2010, Nature, 463:203.
[66]	CARDONE V F, TORTORA C. MNRAS, 2010, 409:1570.
[67]	BOYARKY A, NERONOV A, IAKUBOVSKYI O, et al. Phys Rev Lett, 2010, 1301.
[68]	SABUROVA A, DEL POPOLO A. MNRAS, 2014, 3512.
[69]	BEREZHIANI Z G, DOLGOV A D, MOHAPATRA R N. Phys Lett B, 1996, 375:26.
[70]	IANATIEV A Y, VOLKAS R R. Phys Rev D, 2003, 71:023518.
[71]	FOOT R. Phys Rev D, 2004, 69:036001.
[72]	YANG W M. arXiv:1309.1955v6.
[73]	YANG W M. Nucl Phys B, 2014, 885:505.
[74]	MCDONALD J. Phys Rev D, 1994, 50:3637.
[75]	BURGESS C P, Pospelov M, TER VELDHUIS T. Nucl Phys B, 2001, 619:709.
[76]	YAGUNA C E. JCAP, 2009, 0903:003.
[77]	YUE Qian, CJPL and CDEX of China[C]. Beijing, 2011. (in Chinese) (岳骞. 中国锦屏极深地下实验室(CJPL)和中国暗物质实验(CDEX)[C]. 北京, 2011.)
[78]	ZHAO W, YUE Q, KANG K J, et al. Phys Rev D, 2013, 88:052004.
[79]	YUE Qian, KANG Kejun, LI Jianming. arXiv:1602. 02462vl.
[80]	XIAO Mengjiao. Science China:Physics, Mechanics & Astronomy, 2014, 57:2024.
[81]	XIAO Xiang, CHEN Xun, TAN Andi, et al. Phys Rev D, 2015, 92:052004.
[82]	TAN Andi, XIAO Xiang, CUI Xiangyi, et al. arXiv:1602. 06563vl.
[83]	YANG Changgen. Detection of dark matter RD in Institute ofhigh energy Physics[C]. Beijing, 2013. (in Chinese) (杨长根. 高能所暗物质探测[C]. 北京, 2013.)
[84]	GUO C, MA X H, WANG Z M, et al. arXiv:1602.04923vl.
[85]	ADRIANI O, BARBARINO G C, BAZILEVSKAYA G A, et al. Phys Rev Lett, 2010, 105:121101.
[86]	ACCARDO L, AGUILAR M, AISA D, et al. Phys Rev Lett, 2014, 113:121101.
[87]	AGUILAR M, AISA D, ALVINO A, et al. Phys Rev Lett, 2014, 113:121102.
[88]	HUANG Xiaoyuan, SMING TSAI Yue-Lin, YUAN Qiang, arXiv:1603.07119vl.
[89]	BISHARA F, CROLJO A, KAMENIK J F, et al. JHEP, 2015, 12:130.
[90]	BELANGER G, DELAUNAY C. arXiv:1603:03333vl.

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

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Progress of Theoretical Study on Dark Matter

Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China

Funds: National Natural Science Foundation of China(11205221)

Received Date: 2016-04-01

Rev Recd Date: 2016-04-21

Publish Date: 2016-12-20

Key words:

Abstract: A review of the evidence of the dark matter found in universe and the problems faced by the standard model. To address these issues as well as the possible relationship between the new physics beyond the standard model and dark matter, and given the selection condition of dark matter and possible candidates of the weakly-interacting massive particles (WIMPs). The correlation between the column surface density and the halo core radius of the dark matter halos of galaxies and cluster of galaxies is discussed, and the other models are compared. We find that the surface density within the halo characteristic radius r_* is not an universal quantity; The new model (hidden dark matter)proposed in the study of dark matter is described. At last, the research progress of dark matter experiment in China is commented. At the end of 2016, the first batch of DAMPE data may be given;No significant excess events of WIMPS were found in the first stage of both the CDEX and PandaX experiments located in the China Jinping Underground Laboratory(CJPL). Look forward to their the next stage of these experiments in CJPL.

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Reference (90)

[1]	James Lindesay. Foundations of Quantum Gravity[M]. New York:Cambridge University Press, 2013:309.
[2]	LU Jianxin. Theoretical physics and its frontier I[M]. Beijing:Peking University press, 2014:87; KOMATSU E. AStrophy J suppl. 2001, 192:18, ArXiv:1001:1538[astro-ph.co].(in Chinese) (卢建新. 理论物理及其交叉学科前沿I[M]. 北京:北京大学出版社, 2014:87.)
[3]	Planck Collaboration. 2014, arXiv:1303.5076v3.
[4]	CHANG Jin. Space exploration dark matter satellite[C]. The twenty-eighth Conference on space technology science, Lanzhou, 2015. (in Chinese) (常进. 空间探测暗物质卫星, 第二十八届空间技术科学中心会议, 兰州, 2015.)
[5]	LI Jin, YUE Qian. New Progress of CJPL and CDEX[C].The fteenth Nuclear Physics Conference, shanghai, 2013.
[6]	BORRIELLO A, SALUCCI P. Mon Not Roy Astron Soc, 2001, 323:285. arXiv:astro-ph/0001082.
[7]	CLOWE D, BRADAE M, GONZALEZ A H, et al. Astrophysics J. 2006, 648:1009.
[8]	del POPOLO A. Modern Physics D, 2014, 23:1430005.
[9]	JUNGMAN G, KAMIONKOWSKI M, GRIESI K. Phys Rep, 1996, 267, 195.
[10]	KAMIONKOWSKI M, MICHAEL K. Phys Rev D, 1991, 43, 1774; JUNGMAN G, KAMIONKOWSKI M. Phys Rev D, 1994, 49, 2316.
[11]	LI Tianjun. Review of dark matter models[C]. workshop on cosmology, dark matter, dark engery, Beijing. 2011.
[12]	HERRERO M. arXiv:hep-ph/9812242; BURGESS C P, MOORE G D. The Standard Model:A Primer[M]. New York:Cambridge University Press, 2007.
[13]	RANDALL L, SUNDRUM R. Phys Rev Lett, 1999, 83:3370.
[14]	JIA Bei, LEE Xiguo, ZHANG Pengming, Int J Theor Phys, 2008, 47:3391.
[15]	KOLINNIKOV S Y, KHLOPOVMY. Sov J Nucl Phys, 1982, 36:472.
[16]	GROSS C, LEBEDEV O, MAMBRINI Y. JHEP, 2015, 08:158.
[17]	Gupta A, Primulando R, Saraswat P. JHEP, 2015, 09:079.
[18]	FUKUDA Y, HAYAKAWA T, ICHIHARA E, et al. (SuperKamiokande Collaboration) Phys Rev Lett, 1998, 81:1562.
[19]	AHMAD Q R, ALLEN R C, ANDERSEN T C, et al. (SNO Collaboration). Phys Rev Lett, 2002, 89:011301.
[20]	AN F P, BAI J Z, BALANTEKIN A B, et al. Phys Rev Lett, 2012, 108:171803; ArXiv:1202.6181v1.
[21]	BAKER C A, DOYLE D D, GELTENBORT P, et al. Phys Rev Lett, 2006, 97:131801.
[22]	SAURYA D, DEBAPRASAD M, SOUMITRA S. JHEP, 2008, 05:042; Dey P, Mukhopafhyaya B, SenGupta S. Phys Rev D, 2009, 80:055029.
[23]	LEE Xiguo, JIA Bei. Nuclear Physics Review, 2001, 28(3):276. (in Chinese) (李希国, 贾贝. 原子核物理评论, 2011, 28:276.)
[24]	LEE Xiguo, BALDO M, DUAN Yishi. GRG, 2002, 34(10):1569; DUAN Yishi, LEE XIGUO. Helv Phys Acta, 1995, 68:513.
[25]	LEE Xiguo, LIU Ziyu, LI Yongqing, et al. Modern Physics Letter A, 2008, 23:1055.
[26]	Reyes L M, AGUILAR J E M. Class Quantum Grav, 2011, 28:215007.
[27]	CHANG Jin, FENG Lei, GUO JianHua, et al. ACIENTIA SINICA Physica, Mechanica & Astronomica, 2015, 45:119510. (in Chinese) (常进, 冯磊, 郭建华, 等. 中国科学:物理学力学天文学, 2015, 45:119510.)
[28]	Scherrer R J, Turner M S. Phys Rev D, 1986, 33:1585.
[29]	RUBIN V C, THONNARD N, FORD W K, Jr, Astrophys J, 1980, 238:471.
[30]	JONATHA N, Feng L. Ann Rev Astron AStrophys, 2010, 48:495.
[31]	GOLDBERG H. Phys Rev Lett, 1983, 50:1419.
[32]	KLEIN O. Z Phys, 1926, 37:895.
[33]	APPELQUIST T, CHENG H C, DOBRESCU B A. Phys Rev D, 2001, 67:055002.
[34]	DATTA A, DEY U K, SHAW A, et al. Phys Rev D, 2013, 87:076002.
[35]	DIMOPOULOS S, HOWE K, MARCH-RUSSELL J, et al. JHEP, 2015, 06:041.
[36]	CHENG H C, FENG J L, MATCHEV K T. Phys Rev Lett, 2002, 89:211301.
[37]	ATLAS Collaboration, ATLAS-CoNF-015-081.
[38]	CMS Collaboration, CMS PAS EXO-15-004.
[39]	HAN C, LEE H M, PARK M, et al. arXiv:1512.0637vl[hepph].
[40]	PECCEI R D, QUINN H R. Phys Rev lett, 1977, 38:1440.
[41]	ABBOTT L F, SIKIVIE P. Phys Lett, B, 1983, 120:133.
[42]	SHIFMAN M A, VAINSHTEIN A I, ZAKHAROV V I. Nucl Phys, B, 1980, 166:493.
[43]	ZHITNITSKY A R. Sov.J. Nucl Phys, 1980, 31:260.
[44]	RAFFELT G G. Lect Notes Pgys, 2008, 741:51.
[45]	BAE K J, HUH J H, KIM J E. JCAP, 2008, 0809:005.
[46]	YAMAGUCHI M, KAWASAKI M, YOKOYAMA J. Phys Rev Lett, 1999, 82:4578.
[47]	SIKIVIE P. Phys Rev Lett, 1983, 51:1415.
[48]	FENG J L, RAJARAMAN A, TAKAYAMA F. Phys Rev D, 2003, 68:063504.
[49]	WANG F, YANG J M. Eur Phys J C, 2004, 38:129.
[50]	ROSZKOWSKI L, RUIZ R, DE AUSTRI, et al. JHEP, 2005, 08:080. Nucl Phys B, 1982, 207:96.
[51]	DINE M, NELSON A E, NIR Y, et al. Phys Rev D, 1996, 53:2658.
[52]	ZWICKY F. Helvetica Physica Acta, 1933, 6:110.
[53]	FUSCO-FEMIANO R, HUGHES J P. Astrophys.J. 1994, 429:545.
[54]	EVANS N W, WILKINSON M I. MON Not R Astron Soc, 2000, 316:929.
[55]	MCMillan P L. Mon Not R Astron Soc, 2001, 414:2446.
[56]	RUBIN V C, FORD W K. Astrophys J. 1970, 159:379.
[57]	SABUROVA A, DEL POPOLO A. 2014, MNRAS, 445:3512.
[58]	KORMENDY J, FREEMAN K C. Astronomical Sosiety of the Paci c[C]. Sydney:IAU Symposium, 2004:377.
[59]	Milgrom M. APJ, 1983, 370:371.
[60]	BOYARSKY A, RUCHAYSKIY O, LAKUBOVSKYI D, et al. 2009, arXiv:0911.1774.
[61]	DEL POPOLO A, KROUP P. Astron, Astrophys, 2009, 502:733.
[62]	SILVA J M, LIMA J A S, SOUZA R E,et al. JCAP, 2016, 05:021.
[63]	DEL POPOLO A, LEE Xiguo. Baltic Astronomy, 2016, 25:195.
[64]	STADEL J. POTTER D, MOORE B, et al. 2009, Mon R Astron Soc, 398:21.
[65]	GOVERNATO F, BROOK C, MAYER L, et al. 2010, Nature, 463:203.
[66]	CARDONE V F, TORTORA C. MNRAS, 2010, 409:1570.
[67]	BOYARKY A, NERONOV A, IAKUBOVSKYI O, et al. Phys Rev Lett, 2010, 1301.
[68]	SABUROVA A, DEL POPOLO A. MNRAS, 2014, 3512.
[69]	BEREZHIANI Z G, DOLGOV A D, MOHAPATRA R N. Phys Lett B, 1996, 375:26.
[70]	IANATIEV A Y, VOLKAS R R. Phys Rev D, 2003, 71:023518.
[71]	FOOT R. Phys Rev D, 2004, 69:036001.
[72]	YANG W M. arXiv:1309.1955v6.
[73]	YANG W M. Nucl Phys B, 2014, 885:505.
[74]	MCDONALD J. Phys Rev D, 1994, 50:3637.
[75]	BURGESS C P, Pospelov M, TER VELDHUIS T. Nucl Phys B, 2001, 619:709.
[76]	YAGUNA C E. JCAP, 2009, 0903:003.
[77]	YUE Qian, CJPL and CDEX of China[C]. Beijing, 2011. (in Chinese) (岳骞. 中国锦屏极深地下实验室(CJPL)和中国暗物质实验(CDEX)[C]. 北京, 2011.)
[78]	ZHAO W, YUE Q, KANG K J, et al. Phys Rev D, 2013, 88:052004.
[79]	YUE Qian, KANG Kejun, LI Jianming. arXiv:1602. 02462vl.
[80]	XIAO Mengjiao. Science China:Physics, Mechanics & Astronomy, 2014, 57:2024.
[81]	XIAO Xiang, CHEN Xun, TAN Andi, et al. Phys Rev D, 2015, 92:052004.
[82]	TAN Andi, XIAO Xiang, CUI Xiangyi, et al. arXiv:1602. 06563vl.
[83]	YANG Changgen. Detection of dark matter RD in Institute ofhigh energy Physics[C]. Beijing, 2013. (in Chinese) (杨长根. 高能所暗物质探测[C]. 北京, 2013.)
[84]	GUO C, MA X H, WANG Z M, et al. arXiv:1602.04923vl.
[85]	ADRIANI O, BARBARINO G C, BAZILEVSKAYA G A, et al. Phys Rev Lett, 2010, 105:121101.
[86]	ACCARDO L, AGUILAR M, AISA D, et al. Phys Rev Lett, 2014, 113:121101.
[87]	AGUILAR M, AISA D, ALVINO A, et al. Phys Rev Lett, 2014, 113:121102.
[88]	HUANG Xiaoyuan, SMING TSAI Yue-Lin, YUAN Qiang, arXiv:1603.07119vl.
[89]	BISHARA F, CROLJO A, KAMENIK J F, et al. JHEP, 2015, 12:130.
[90]	BELANGER G, DELAUNAY C. arXiv:1603:03333vl.

Progress of Theoretical Study on Dark Matter

doi: 10.11804/NuclPhysRev.33.04.392

Abstract

References

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通讯作者: 陈斌, bchen63@163.com

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