- 必威体育下载

姓名
邮箱
手机号码
标题
留言内容
验证码

Abstract
The China Spallation Neutron Source Phase-II Project (CSNS-II) includes the construction of a muon source, namely “Muon station for sciEnce technoLOgy and inDustrY” (MELODY). A muon target station and a surface muon beam line are on the schedule to be completed in 2029, making MELODY the first Chinese muon facility. This beam line is mainly focused on the application of muon spin relaxation/rotation/resonance (μSR) spectroscopy. MELODY also reserves tunnels to build a negative muon beam line and a decay muon beam line in the future to further extend the research field into muon-induced X-ray emission (MIXE) elemental analysis and μSR measurements in thick cells, respectively. The two types of material characterization technologies keep their uniqueness in multi-disciplinary researches, and also provide complementary insights for other techniques, such as neutron scattering, nuclear magnetic resonance, and X-ray fluorescence analysis, etc.
The μSR spectroscopy is a well-established technology that implants highly spin polarized muon beams into various types of materials. The subsequent precession and relaxation of muon spins in their surrounding atomic environment reflect the static and dynamical properties of the material of interest, and then are measured by detecting asymmetrically emitted positrons decaying from those muons with an average lifetime of around 2.2 μs. This enables μSR to develop into a powerful quantum magnetic probe to investigate materials concerning magnetism, superconductivity, and molecular dynamics. The bounding of a positive muon and an electron, knowns as muonium, making it a unique and sensitive probe in the study of semiconductors, new energy materials, free radical chemistry, etc. As the production of muon beams strongly rely on proton accelerators, only five muon facilities worldwide are available for μSR experiments. This limits the application of muon related sciences in a large scale. Particularly, Chinese researchers face fierce competence to apply for precious and limited muon beam time only from international muon sources to characterize key properties of their materials.
The construction of MELODY muon facility at CSNS-II aims to provide intense and pulsed muon beams for Chinese and international users to conduct their μSR measurements with good quality data in a low repetition rate operation mode. To achieve this goal, as shown in Figure 1, the μSR spectrometer is designed with: 1) over 3000 detector units to obtain a sufficient counting rate of 80 Million/h to significantly suppress statistical fluctuations in a short measuring time; 2) a high asymmetry of 0.3 to greatly amplify μSR signals so as to further reduce statistical fluctuations; 3) extendable low temperature devices to cover most μSR applications and also fulfill experiments with extreme condition requirements.
The MIXE elemental analysis is a type of particle induced X-ray emission (PIXE) technologies. Due to the heavier mass of negative muons, the energy of muonic X-rays is around 207 higher than that of X-ray or electron induced fluorescence X-rays. Thus, the MIXE technology is more sensitive to materials with low atomic numbers, and thick samples can be effectively studied without scratching their surfaces. Due to these advantages, MIXE has been successfully applied in the elemental analysis of cultural heritages, meteorites, and Li-ion batteries, etc. MELODY reserves tunnels for negative muon extractions and transport to a MIXE terminal. The research group for MELODY is under the development of new detection technology with high energy resolution and high counting capability to reduce the measuring time into acceptable amount based on the 1-Hz repetition rate of muon pulses.
μSR spectroscopy and MIXE are the two most important application fields of accelerator muon beams. The MELODY muon facility aims to develop and promote these technologies in China with dedicated muon beam lines to be constructed in CSNS-II and in the future. In this overview, we introduce the principles and advantages of the μSR and MIXE technologies, as well as the physical design and application prospects of the μSR and MIXE spectrometers based on the CSNS-II muon source. Finally, the future muon beamline upgrade and more wider applications on the CSNS-II muon source are discussed and desired.

Keywords:
China Spallation Neutron Source(CSNS)/

Muon experimental terminal/

Muon spin relaxation/rotation/resonance spectroscopy(μSR)/

Muon-Induced X-ray Emission(MIXE)
Cited By

[1]
[2]
[3]
[4]
[5]
[6]
[7]
[8]
[9]
[10]
[11]
[12]
[13]
[14]
[15]
[16]
[17]
[18]
[19]
[20]
[21]
[22]
[23]
[24]
[25]
[26]
[27]
[28]
[29]
[30]
[31]
[32]
[33]
[34]
[35]
[36]
[37]
[38]
[39]
[40]
[41]
[42]
[43]
[44]
[45]
[46]
[47]
[48]
[49]
[50]
[51]
[52]
[53]
[54]
[55]
[56]
[57]
[58]
[59]
[60]
[61]
[62]
[63]
[64]
[65]
[66]
[67]
[68]
[69]
[70]
[71]
[72]
[73]
[74]
[75]
[76]
[77]
[78]

[1]	Cao Song, Yin Wen, Zhou Bin, Hu Zhi-Liang, Shen Fei, Yi Tian-Cheng, Wang Song-Lin, Liang Tian-Jiao.Calculation of radiation damage of key components of China Spallation Neutron Source II target station. Acta Physica Sinica,doi:10.7498/aps.73.20240088
[2]	Wang Ying, Shu Lei.Progress of experiment on μSR and trends of developing muon facilities. Acta Physica Sinica,doi:10.7498/aps.73.20240940
[3]	Li Yu-Peng, Tang Xiu-Zhang, Chen Xin-Nan, Gao Chun-Yu, Chen Yan-Nan, Fan Cheng-Jun, Lü Jian-You.Experimental study on material discrimination based on muon discrete energy. Acta Physica Sinica,doi:10.7498/aps.72.20221645
[4]	Su Ning, Liu Yuan-Yuan, Wang Li, Cheng Jian-Ping.Muon radiography simulation for underground palace of Qinshihuang Mausoleum. Acta Physica Sinica,doi:10.7498/aps.71.20211582
[5]	Huo Yong-Gang, Yan Jiang-Yu, Zhang Quan-Hu.Image quality evaluation of multimodal imaging of muon. Acta Physica Sinica,doi:10.7498/aps.71.20211083
[6]	Wang De-Xin, Zhang Su-Ya-La-Tu, Jiang Wei, Ren Jie, Wang Jin-Cheng, Tang Jing-Yu, Ruan Xi-Chao, Wang Hong-Wei, Chen Zhi-Qiang, Huang Mei-Rong, Tang Xin, Hu Xin-Rong, Li Xin-Xiang, Liu Long-Xiang, Liu Bing-Yan, Sun Hui, Zhang Yue, Hao Zi-Rui, Song Na, Li Xue, Niu Dan-Dan, Li Guo, Meng Gu-Fu.Neutron capture cross section measurements for^natLu with different thickness. Acta Physica Sinica,doi:10.7498/aps.71.20212051
[7]	Zhang Jiang-Lin, Jiang Bing, Chen Yong-Hao, Guo Zi-An, Wang Xiao-He, Jiang Wei, Yi Han, Han Jian-Long, Hu Ji-Feng, Tang Jing-Yu, Chen Jin-Gen, Cai Xiang-Zhou.Measurement of total neutron cross section of natural lithium at China Spallation Neutron Source Back-n facility. Acta Physica Sinica,doi:10.7498/aps.71.20211646
[8]	Yan Jiang-Yu, Zhang Quan-Hu, Huo Yong-Gang.Multimodal imaging of muon based on scattering and secondary induced neutrons. Acta Physica Sinica,doi:10.7498/aps.70.20210804
[9]	.Image Quality Evaluation of Multi-modal Imaging of Muon. Acta Physica Sinica,doi:10.7498/aps.70.20211083
[10]	Zhang Qi-Wei, Luan Guang-Yuan, Ren Jie, Ruan Xi-Chao, He Guo-Zhu, Bao Jie, Sun Qi, Huang Han-Xiong, Wang Zhao-Hui, Gu Min-Hao, Yu Tao, Xie Li-Kun, Chen Yong-Hao, An Qi, Bai Huai-Yong, Bao Yu, Cao Ping, Chen Hao-Lei, Chen Qi-Ping, Chen Yu-Kai, Chen Zhen, Cui Zeng-Qi, Fan Rui-Rui, Feng Chang-Qing, Gao Ke-Qing, Han Chang-Cai, Han Zi-Jie, He Yong-Cheng, Hong Yang, Huang Wei-Ling, Huang Xi-Ru, Ji Xiao-Lu, Ji Xu-Yang, Jiang Wei, Jiang Hao-Yu, Jiang Zhi-Jie, Jing Han-Tao, Kang Ling, Kang Ming-Tao, Li Bo, Li Chao, Li Jia-Wen, Li Lun, Li Qiang, Li Xiao, Li Yang, Liu Rong, Liu Shu-Bin, Liu Xing-Yan, Mu Qi-Li, Ning Chang-Jun, Qi Bin-Bin, Ren Zhi-Zhou, Song Ying-Peng, Song Zhao-Hui, Sun Hong, Sun Kang, Sun Xiao-Yang, Sun Zhi-Jia, Tan Zhi-Xin, Tang Hong-Qing, Tang Jing-Yu, Tang Xin-Yi, Tian Bin-Bin, Wang Li-Jiao, Wang Peng-Cheng, Wang Qi, Wang Tao-Feng, Wen Jie, Wen Zhong-Wei, Wu Qing-Biao, Wu Xiao-Guang, Wu Xuan, Yang Yi-Wei, Yi Han, Yu Li, Yu Yong-Ji, Zhang Guo-Hui, Zhang Lin-Hao, Zhang Xian-Peng, Zhang Yu-Liang, Zhang Zhi-Yong, Zhao Yu-Bin, Zhou Lu-Ping, Zhou Zu-Ying, Zhu Dan-Yang, Zhu Ke-Jun, Zhu Peng, Zhu Xing-Hua.Cross section measurement of neutron capture reaction based on back-streaming white neutron source at China spallation neutron source. Acta Physica Sinica,doi:10.7498/aps.70.20210742
[11]	Ren Jie, Ruan Xi-Chao, Chen Yong-Hao, Jiang Wei, Bao Jie, Luan Guang-Yuan, Zhang Qi-Wei, Huang Han-Xiong, Wang Zhao-Hui, An Qi, Bai Huai-Yong, Bao Yu, Cao Ping, Chen Hao-Lei, Chen Qi-Ping, Chen Yu-Kai, Chen Zhen, Cui Zeng-Qi, Fan Rui-Rui, Feng Chang-Qing, Gao Ke-Qing, Gu Min-Hao, Han Chang-Cai, Han Zi-Jie, He Guo-Zhu, He Yong-Cheng, Hong Yang, Huang Wei-Ling, Huang Xi-Ru, Ji Xiao-Lu, Ji Xu-Yang, Jiang Hao-Yu, Jiang Zhi-Jie, Jing Han-Tao, Kang Ling, Kang Ming-Tao, Li Bo, Li Chao, Li Jia-Wen, Li Lun, Li Qiang, Li Xiao, Li Yang, Liu Rong, Liu Shu-Bin, Liu Xing-Yan, Mu Qi-Li, Ning Chang-Jun, Qi Bin-Bin, Ren Zhi-Zhou, Song Ying-Peng, Song Zhao-Hui, Sun Hong, Sun Kang, Sun Xiao-Yang, Sun Zhi-Jia, Tan Zhi-Xin, Tang Hong-Qing, Tang Jing-Yu, Tang Xin-Yi, Tian Bin-Bin, Wang Li-Jiao, Wang Peng-Cheng, Wang Qi, Wang Tao-Feng, Wen Jie, Wen Zhong-Wei, Wu Qing-Biao, Wu Xiao-Guang, Wu Xuan, Xie Li-Kun, Yang Yi-Wei, Yi Han, Yu Li, Yu Tao, Yu Yong-Ji, Zhang Guo-Hui, Zhang Lin-Hao, Zhang Xian-Peng, Zhang Yu-Liang, Zhang Zhi-Yong, Zhao Yu-Bin, Zhou Lu-Ping, Zhou Zu-Ying, Zhu Dan-Yang, Zhu Ke-Jun, Zhu Peng.In-beam γ-rays of back-streaming white neutron source at China Spallation Neutron Source. Acta Physica Sinica,doi:10.7498/aps.69.20200718
[12]	Wang Xun, Zhang Feng-Qi, Chen Wei, Guo Xiao-Qiang, Ding Li-Li, Luo Yin-Hong.Experimental study on neutron single event effects of commercial SRAMs based on CSNS. Acta Physica Sinica,doi:10.7498/aps.69.20200265
[13]	Bao Jie, Chen Yong-Hao, Zhang Xian-Peng, Luan Guang-Yuan, Ren Jie, Wang Qi, Ruan Xi-Chao, Zhang Kai, An Qi, Bai Huai-Yong, Cao Ping, Chen Qi-Ping, Cheng Pin-Jing, Cui Zeng-Qi, Fan Rui-Rui, Feng Chang-Qing, Gu Min-Hao, Guo Feng-Qin, Han Chang-Cai, Han Zi-Jie, He Guo-Zhu, He Yong-Cheng, He Yue-Feng, Huang Han-Xiong, Huang Wei-Ling, Huang Xi-Ru, Ji Xiao-Lu, Ji Xu-Yang, Jiang Hao-Yu, Jiang Wei, Jing Han-Tao, Kang Ling, Kang Ming-Tao, Lan Chang-Lin, Li Bo, Li Lun, Li Qiang, Li Xiao, Li Yang, Li Yang, Liu Rong, Liu Shu-Bin, Liu Xing-Yan, Ma Ying-Lin, Ning Chang-Jun, Nie Yang-Bo, Qi Bin-Bin, Song Zhao-Hui, Sun Hong, Sun Xiao-Yang, Sun Zhi-Jia, Tan Zhi-Xin, Tang Hong-Qing, Tang Jing-Yu, Wang Peng-Cheng, Wang Tao-Feng, Wang Yan-Feng, Wang Zhao-Hui, Wang Zheng, Wen Jie, Wen Zhong-Wei, Wu Qing-Biao, Wu Xiao-Guang, Wu Xuan, Xie Li-Kun, Yang Yi-Wei, Yang Yi, Yi Han, Yu Li, Yu Tao, Yu Yong-Ji, Zhang Guo-Hui, Zhang Jing, Zhang Lin-Hao, Zhang Li-Ying, Zhang Qing-Min, Zhang Qi-Wei, Zhang Yu-Liang, Zhang Zhi-Yong, Zhao Ying-Tan, Zhou Liang, Zhou Zu-Ying, Zhu Dan-Yang, Zhu Ke-Jun, Zhu Peng.Erratum: Experimental result of back-streaming white neutron beam characterization at Chinese spallation neutron source. Acta Physica Sinica,doi:10.7498/aps.68.109901
[14]	Zhan Xia, Joe Kelleher, Gao Jian-Bo, Ma Yan-Ling, Chu Ming-Qiang, Zhang Shu-Yan, Zhang Peng, Sanjooram Paddea, Gong Zhi-Feng, Hou Xiao-Dong.High temperature sample environment upgrade of ISIS engineering materialsin-situdiffraction experiment. Acta Physica Sinica,doi:10.7498/aps.68.20182295
[15]	Hu Zhi-Liang, Yang Wei-Tao, Li Yong-Hong, Li Yang, He Chao-Hui, Wang Song-Lin, Zhou Bin, Yu Quan-Zhi, He Huan, Xie Fei, Bai Yu-Rong, Liang Tian-Jiao.Atmospheric neutron single event effect in 65 nm microcontroller units by using CSNS-BL09. Acta Physica Sinica,doi:10.7498/aps.68.20191196
[16]	Wang Xun, Zhang Feng-Qi, Chen Wei, Guo Xiao-Qiang, Ding Li-Li, Luo Yin-Hong.Application and evaluation of Chinese spallation neutron source in single-event effects testing. Acta Physica Sinica,doi:10.7498/aps.68.20181843
[17]	Bao Jie, Chen Yong-Hao, Zhang Xian-Peng, Luan Guang-Yuan, Ren Jie, Wang Qi, Ruan Xi-Chao, Zhang Kai, An Qi, Bai Huai-Yong, Cao Ping, Chen Qi-Ping, Cheng Pin-Jing, Cui Zeng-Qi, Fan Rui-Rui, Feng Chang-Qing, Gu Min-Hao, Guo Feng-Qin, Han Chang-Cai, Han Zi-Jie, He Guo-Zhu, He Yong-Cheng, He Yue-Feng, Huang Han-Xiong, Huang Wei-Ling, Huang Xi-Ru, Ji Xiao-Lu, Ji Xu-Yang, Jiang Hao-Yu, Jiang Wei, Jing Han-Tao, Kang Ling, Kang Ming-Tao, Lan Chang-Lin, Li Bo, Li Lun, Li Qiang, Li Xiao, Li Yang, Li Yang, Liu Rong, Liu Shu-Bin, Liu Xing-Yan, Ma Ying-Lin, Ning Chang-Jun, Nie Yang-Bo, Qi Bin-Bin, Song Zhao-Hui, Sun Hong, Sun Xiao-Yang, Sun Zhi-Jia, Tan Zhi-Xin, Tang Hong-Qing, Tang Jing-Yu, Wang Peng-Cheng, Wang Tao-Feng, Wang Yan-Feng, Wang Zhao-Hui, Wang Zheng, Wen Jie, Wen Zhong-Wei, Wu Qing-Biao, Wu Xiao-Guang, Wu Xuan, Xie Li-Kun, Yang Yi-Wei, Yang Yi, Yi Han, Yu Li, Yu Tao, Yu Yong-Ji, Zhang Guo-Hui, Zhang Jing, Zhang Lin-Hao, Zhang Li-Ying, Zhang Qing-Min, Zhang Qi-Wei, Zhang Yu-Liang, Zhang Zhi-Yong, Zhao Ying-Tan, Zhou Liang, Zhou Zu-Ying, Zhu Dan-Yang, Zhu Ke-Jun, Zhu Peng.Experimental result of back-streaming white neutron beam characterization at Chinese spallation neutron source. Acta Physica Sinica,doi:10.7498/aps.68.20182191
[18]	Wen Zhi-Wen, Qi Hui-Rong, Zhang Yu-Lian, Wang Hai-Yun, Liu Ling, Wang Yan-Feng, Zhang Jian, Li Yu-Hong, Sun Zhi-Jia.Development of high-pressure multi-wire proportional chamber neutron detector for the China Spallation Neutron Source multipurpose reflectometer. Acta Physica Sinica,doi:10.7498/aps.67.20172618
[19]	Shen Fei, Liang Tai-Ran, Yin Wen, Yu Quan-Zhi, Zuo Tai-Sen, Yao Ze-En, Zhu Tao, Liang Tian-Jiao.Shielding design of the multi-purpose reflectometer of China spallation neutron source. Acta Physica Sinica,doi:10.7498/aps.63.152801
[20]	Yu Quan-Zhi, Yin Wen, Liang Tian-Jiao.Calculation and analysis of DPA in the main components of CSNS target station. Acta Physica Sinica,doi:10.7498/aps.60.052501

Metrics

Abstract views:123
PDF Downloads:2
Cited By:0

Search

Article

留言板

Abstract

Cited By

Metrics

Authors

Referees

About Journal

About

Search

Article

留言板

Abstract

Cited By

Metrics

Publishing process

Authors

Referees

About Journal

About