Advanced Search
Volume 35 Issue 4
May  2020
Turn off MathJax
Article Contents

ZHOU Xiaohong. Physics Opportunities at the New Facility HIAF[J]. Nuclear Physics Review, 2018, 35(4): 339-349. doi: 10.11804/NuclPhysRev.35.04.339
Citation: ZHOU Xiaohong. Physics Opportunities at the New Facility HIAF[J]. Nuclear Physics Review, 2018, 35(4): 339-349. doi: 10.11804/NuclPhysRev.35.04.339

Physics Opportunities at the New Facility HIAF

doi: 10.11804/NuclPhysRev.35.04.339
Funds:  National Natural Science Foundation of China (11735017); Fundamental Research Funds of Chinese Academy of Sciences (QYZDJ-SSW-SLH041)
  • Received Date: 2018-09-28
  • Publish Date: 2020-05-03
  • The Institute of Modern Physics, Chinese Academy of Sciences, proposed the Major National Science and Technology Infrastructure Facility named as High Intensity Heavy-ion Accelerator Facility (HIAF) in 2010. After a series of assessments charged by the National Development and Reform Commission of China, HIAF was officially approved by China government in December, 2015. HIAF will be constructed in Huizhou, Guangdong Province, and the groundbreaking ceremony of construction is scheduled around the end in the year of 2018. HIAF is composed of a superconducting Linac, a booster ring, a high-energy radioactive beam line, a storage ring, and a number of experiment setups. The total investment of HIAF is about 2.5 billion Chinese Yuan. The major goals for HIAF are to explore the hitherto unknown territories in nuclear chart, to approach the experimental limits, to open new domains of physics researches in experiments, and to develop new ideas and heavy-ion applications beneficial to the societies. In this paper, the accelerator complex of HIAF is briefly introduced, and the experimental setups and associated physics research program are presented.
  • [1] XIAO G Q, XU H S, WANG S C. Nuclear Physics Review, 2017, 34(3):275. (in Chinese) (肖国青, 徐瑚珊, 王思成. 原子核物理评论, 2017, 34(3):275.)
    [2] ZHOU X H. Nuclear Physics News, 2016, 26(2):4.
    [3] GRIESER M, LITVINOV Yu A, RAABE R, et al. Eur Phys J Special Topics, 2012, 207:1.
    [4] GHIORSO A, YASHITA S, LEINO M, et al. Nucl Instr and Meth A, 1988, 269:192.
    [5] LEINO M. Nucl Instr and Meth B, 2003, 204:129.
    [6] ZHANG Z Y, MA L, GAN Z G, et al. Nucl Instr and Meth B, 2013, 317:315.
    [7] ZAGREBAEV V I, GREINER W. Phys Rev C, 2013, 87:034608.
    [8] SAITO T R, RAPPOLD C, BERTINI O, et al. Nucl Phys A, 2016, 954:199.
    [9] GUPTA S, LUO X F, MOHANTY B, et al. Science, 2011, 332:1525.
    [10] NuPECC Long Range Plan 2017:Perspectives for Nuclear Physics, available on the web at http://www.nupecc.org.
    [11] Reaching for the Horizon:The Long Rang Plan for Nuclear Science, available on the web at https://science.energy.gov/np/nsac.
    [12] YAMAGUCHI T, HACHIUMA I, KITAGAWA A, et al. Phys Rev Lett, 2011, 107:032502.
    [13] KANUNGO R, HORIUCHI W, HAGEN G, et al. Phys Rev Lett, 2016, 117:102501.
    [14] KANUNGO R, NOCIFORO C, PROCHAZKA A, et al. Phys Rev Lett, 2009, 102:152501.
    [15] Scientific Program of the Super-FRS Collaboration:Report of the collaboration to the FAIR management, available on the web at https://www.gsi.de/en/researchaccelerators/fair.htm.
    [16] SPIES W, UWIRA O, MULLER A, et al. Nucl Instr and Meth B, 1995, 98:158.
    [17] WEN W Q, MA X, XU W Q, et al. Nucl Instr and Meth B, 2013, 317:731.
    [18] MEI B, AUMANN T, BISHOP S, et al. Phys Rev C, 2015, 92:035803.
    [19] ZAMORA J C, AUMANN T, BAGCHI S, et al. Phys Lett B, 2016, 763:16.
    [20] ZAMORA J C, AUMANN T, BAGCHI S, et al. Phys Rev C, 2017, 96:034617.
    [21] TU X L, XU H S, WANG M, et al. Phys Rev Lett, 2011, 106:112501.
    [22] ZHANG Y H, XU H S, LITVINOV Yu A, et al. Phys Rev Lett, 2012, 109:102501.
    [23] XU X, ZHANG P, SHUAI P, et al. Phys Rev Lett, 2016, 117:182503.
    [24] XING Y M, LI K A, ZHANG Y H, et al. Phys Lett B, 2018, 781:358.
    [25] HAUSMANN M, ATTALLAH F, BECKERT K, et al. Nucl Instr and Meth A, 2000, 446:569.
    [26] TU X L, WANG M, LITVINOV Yu A, et al. Nucl Instr and Meth A, 2011, 654:213.
    [27] SHUAI P, XU X, ZHANG Y H, et al. Nucl Instr and Meth B, 2016, 376:311.
    [28] HUANG W J, AUDI G, WANG M, et al. Chin Phys C, 2017, 41:030002.
    [29] WANG M, AUDI G, KONDEV F G, et al. Chin Phys C, 2017, 41:030003.
  • 加载中
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

Article Metrics

Article views(1661) PDF downloads(395) Cited by()

Related
Proportional views

Physics Opportunities at the New Facility HIAF

doi: 10.11804/NuclPhysRev.35.04.339
Funds:  National Natural Science Foundation of China (11735017); Fundamental Research Funds of Chinese Academy of Sciences (QYZDJ-SSW-SLH041)

Abstract: The Institute of Modern Physics, Chinese Academy of Sciences, proposed the Major National Science and Technology Infrastructure Facility named as High Intensity Heavy-ion Accelerator Facility (HIAF) in 2010. After a series of assessments charged by the National Development and Reform Commission of China, HIAF was officially approved by China government in December, 2015. HIAF will be constructed in Huizhou, Guangdong Province, and the groundbreaking ceremony of construction is scheduled around the end in the year of 2018. HIAF is composed of a superconducting Linac, a booster ring, a high-energy radioactive beam line, a storage ring, and a number of experiment setups. The total investment of HIAF is about 2.5 billion Chinese Yuan. The major goals for HIAF are to explore the hitherto unknown territories in nuclear chart, to approach the experimental limits, to open new domains of physics researches in experiments, and to develop new ideas and heavy-ion applications beneficial to the societies. In this paper, the accelerator complex of HIAF is briefly introduced, and the experimental setups and associated physics research program are presented.

ZHOU Xiaohong. Physics Opportunities at the New Facility HIAF[J]. Nuclear Physics Review, 2018, 35(4): 339-349. doi: 10.11804/NuclPhysRev.35.04.339
Citation: ZHOU Xiaohong. Physics Opportunities at the New Facility HIAF[J]. Nuclear Physics Review, 2018, 35(4): 339-349. doi: 10.11804/NuclPhysRev.35.04.339
Reference (29)

Catalog

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return