An Approach to Study the Cosmic Ray ‘Knee’Composition From Underground Multimuon Events at a Shallower Depth

Ding Linkal; Zhu Qingqi; Shen Changquan; Yao Zhiguo; Cheung Tsang; Matti Vallinkoski

Chinese Physics C> 1999, Vol. 23> Issue(6) : 584-588

An Approach to Study the Cosmic Ray ‘Knee’Composition From Underground Multimuon Events at a Shallower Depth

Institute of High Energy Physics, CAS, Beijing 1000391 City University of Hong Kong, Hong Kong2 University of Oulu, Oulu, Finland

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Abstract：
The observation of underground multimuon phenomena is an important way for the study of the cosmic ray composition in the 'knee' region (1015-1016 eV). It is noticed that the existing underground detectors are not very ideal for the composihon study because they were originally designed mainly for other aims. A new approach having higher sensitivity for this study by observing multimuon events using a detector array in a shallower depth underground is presented.

References

[1]

KASCADE Collaboration. Nucl. Phys. B (Proc. Supl.), 1997, 52B:92;Proc. 25th ICRC (Int. Cosmic Ray Conf.), 1997, 6:97, 121, 141, 145 2 Boothby K et al. Proc. 25th ICRC, 1997, 4:33, 37; 1997, 5: 193 3 MACRO Collaboration. Phys. Rev., 1992, D46:895; Nucl. Phys. B (Proc. Suppl.), 1994, 35:229;LVD Collaboration, NuCl. Phys. B (Proc. Suppl.), 1994, 35:243;Jing C L et al. High Energy Phys. and Nucl. Phys., 1985, 9: 134 4 MACRO Collaboration. Proc. 24th ICRC, 1995, 1: 1031 5 Cheung T, Zhu Q Q. Proc. 24th ICRC, 1995, 1: 143;Zhu Q Q et al. J. Phys., 1994, G20: 1383;Ding L K et al. High Energy Phys. and Nucl. Phys. (in Chinese), 1988, 12:731;(丁林恺等. 高能物理与核物理, 1988, 12: 731)Zhu Q Q et al. High Energy Phys. and Nucl. Phys. (in Chinese), 1990, 14:296;(朱清棋等.高能物理与核物理, 1990, 14:296)Cao Z, Ding L X High Energy Phys. and Nucl. Phys. (in Chinese), 1994, 18:961(曹臻等. 高能物理与核物理, 1994, 18: 961)6 Barnett R M et al. Phps. Rev., 1996, D54:1

[1]	XIE Wan , OUYANG Qun , XIE Yi-Gang , ZHENG Shu-Cheng , HAN Hong-Guang , CHENG Shao-Chen , YANG Yi . Performance Study of Monitored Drift Tube Chambers with Cosmic Rays. Chinese Physics C, 2007, 31(11): 1056-1061.
[2]	YANG Hong-Tao , LIU Jun , GENG Qing-Xi , LIU Chang-Qin , ZHANG Pin , GAO Xiao-Yu , ZHA Min , JING Gui-Ru , JING Cai-Liu , ZHU Qing-Qi , Cheung T , Leung K , NG L . The Study of Primary Cosmic Ray Mass Composition Around the. Chinese Physics C, 2006, 30(6): 497-500.
[3]	LI Li , ZHANG Feng , WANG Rui-Guang , CHEN He-Sheng , MA Yu-Qian . Track Finding of Cosmic Multi-muon Events in the L3+C Muon Detector. Chinese Physics C, 2004, 28(7): 749-752.
[4]	WANG Kong-Sen , WANG He , HUANG Xing-Tao , MA Lian-Liang , MA Li-Na , WANG Yong-Gang , XUE Liang , FENG Cun-Feng , ZHANG Xue-Yao , LI Jin-Yu , ZHANG Nai-Jian , HE Mao , WANG Cheng- , , . Study on the Production Characteristics of Cosmic Ray High Energy Family Events with Simulation and Experiment. Chinese Physics C, 2004, 28(3): 232-238.
[5]	WANG He , WANG Yong-Gang , DAI Zhi-Qiang , XUE Liang , FENG Cun-Feng , ZHANG Xue-Yao , LI Jin-Yu , ZHANG Nai-Jian , HE Mao , WANG Cheng-Rui , REN Jing-Ru , LU Sui-Ling . Lateral Distribution of Shower Particles in High Energy Family Events of Cosmic Rays. Chinese Physics C, 2003, 27(4): 299-303.
[6]	LIU Jun , GENG Qing-Xi , YANG Hong-Tao , LIU Chang-Qin , ZHANG Pin , GAO Xiao-Yu , JING Cai-Liu , ZHA Min , JING Gui-Ru , ZHU Qing-Qi , Cheung T , Ng L . Study of EAS Local Muon Density Spectrum and the Knee in the Energy Spectrum of Primary Cosmic Rays. Chinese Physics C, 2003, 27(2): 109-112.
[7]	JIA Huan-Yu , WANG Shun-Jin . Study of the Time Variation of 10TeV Cosmic Ray. Chinese Physics C, 2001, 25(4): 277-282.
[8]	XUE Liang , DAI ZhiQiang , LI Jinyu , ZHANG Xueyao , FENG CunFeng , FU Yu , ZHANG NaiJian , REN JingRu , LU SuiLing . Phenomenon of Alignment in Cosmic Ray High Energy Family Events. Chinese Physics C, 2000, 24(11): 979-984.
[9]	FENG CunFeng , ZHANG XueYao , KONG FanMin , HE Mao , FU Yu , DAI ZhiQiang , ZHANG NaiJian . Relation between Interactive Models and Identification of Primary Cosmic Ray Components at the “Knee”. Chinese Physics C, 2000, 24(6): 467-472.
[10]	Liang Hualou , Xie Wei , Ren Jingru , Wang Taijie , Dai Guiliang . Distinguishing Primary Cosmic-Ray Composition with Artificial Neural Networks. Chinese Physics C, 1997, 21(3): 205-210.
[11]	Luo Guangxuan , Tan Youheng , Zhang Chunsheng , Dong Yuju , Yuan Peng , Zhang Huimin , Wang Hui , Yuan Yukui , Li Jing . Primary Energy Spectrum of Cosmic Ray at the. Chinese Physics C, 1995, 19(9): 769-774.
[12]	Jia Huanyu , Cao Zhen , Zhang Huimin . The Study of Meteorological Effects on TeV Cosmic Ray Flux. Chinese Physics C, 1994, 18(9): 788-793.
[13]	HAO Wei , LU Chang-Guo , QUE You-Kun , ZHOU Yue-Hua . A TRIGGER SCHEME FOR COSMIC RAY EXPERIMENT WITH A SAMPLE-AND-HOLD SYSTEM. Chinese Physics C, 1989, 13(4): 293-297.
[14]	CAI Xu , ZHOU Dai-Cui , QIAN Wan-Yan , LUO Lai-Qi . A HIGH MULTIPLICITY COSMIC PAY EVENT OBSERVED IN CHINESE SATELLITE EMULSION. Chinese Physics C, 1988, 12(2): 150-154.
[15]	JIANG Yin-Lin , YUAN Yu-Kui , LI Yan-Guo , CHEN Duan-Bao , ZHENG Rong-Ting , SONG Jian-Ning . RESEARCH FOR THE POSSIBILITY ON DETECTING COSMIC RAY PARTICLES BY ACOUSTIC WAY. Chinese Physics C, 1986, 10(1): 9-14.
[16]	HE Yu-Dong , ZHOU Wen-De , HE Ren-Dao , MU Jun , DING Lin-Kai , ZHU Qing-Qi , JING Cai-Liu , JING Gui-Ru . AN ANALYSIS OF PRIMARY COSMIC RAY COMPOSITION AT ENERGIES AROUND 10¹⁴eV USING SINGLE-SHOWER EVENTS OBSERVED BY MOUNTAIN EMULSION CHAMBER. Chinese Physics C, 1986, 10(6): 641-646.
[17]	ZOU Bao-Tang , WANG Cheng-Rui , REN Jing-Ru . A COSMIC RAY SUPER HIGH ENERGY MULTIJET FAMILY EVENT. Chinese Physics C, 1986, 10(4): 393-399.
[18]	JING Cai-Liu , JING Gui-Ru , DING Lin-Kai , ZHU Qing-Qi . ANALYSIS ON COSMIC RAY MULTI-μ PHENOMENA IN ENERGY REGION 10¹⁴—10¹⁶eV. Chinese Physics C, 1985, 9(2): 134-141.
[19]	DING Lin-Kai , JING Gui-Ru . NUCLEAR COMPONENTS OF PRIMARYS COSMIC RAYS AND CLUSTER PHENOMENA IN EMULSION CHAMBER EXPERIMENTS. Chinese Physics C, 1983, 7(2): 129-134.
[20]	LUO LIAU-FU , LU TAN . HIGH SPIN MESONS AND UNEXPLAINED MULTIPHOTON PHENOMENA. Chinese Physics C, 1978, 2(6): 562-565.

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Ding Linkal, Zhu Qingqi, Shen Changquan, Yao Zhiguo, Cheung Tsang and Matti Vallinkoski. An Approach to Study the Cosmic Ray ‘Knee’Composition From Underground Multimuon Events at a Shallower Depth[J]. Chinese Physics C, 1999, 23(6): 584-588.

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Received: 1999-01-07
Revised: 1900-01-01

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沈阳化工大学材料科学与工程学院沈阳 110142

An Approach to Study the Cosmic Ray ‘Knee’Composition From Underground Multimuon Events at a Shallower Depth

Corresponding author: Ding Linkal,

Institute of High Energy Physics, CAS, Beijing 1000391 City University of Hong Kong, Hong Kong2 University of Oulu, Oulu, Finland

Received Date: 1999-01-07

Accepted Date: 1900-01-01

Available Online: 1999-06-05

Abstract: The observation of underground multimuon phenomena is an important way for the study of the cosmic ray composition in the 'knee' region (1015-1016 eV). It is noticed that the existing underground detectors are not very ideal for the composihon study because they were originally designed mainly for other aims. A new approach having higher sensitivity for this study by observing multimuon events using a detector array in a shallower depth underground is presented.

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An Approach to Study the Cosmic Ray ‘Knee’Composition From Underground Multimuon Events at a Shallower Depth

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