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Nuclear physics and facilities in China

Nuclear physics and facilities in China. Weiping Liu CIAE, China institute of atomic energy IUPAP WG9 symposium, TRIUMF, Vancouver July 2, 2010. Facilities in China (Not complete). Nuclear physics CSR Lanzhou HI-13/BRIF Beijing Particle physics BEPCII Beijing

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Nuclear physics and facilities in China

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  1. Nuclear physics and facilities in China Weiping Liu CIAE, China institute of atomic energy IUPAP WG9 symposium, TRIUMF, Vancouver July 2, 2010

  2. Facilities in China(Not complete) • Nuclear physics • CSR Lanzhou • HI-13/BRIF Beijing • Particle physics • BEPCII Beijing • More can be heard from Prof. Zhan’s talk • Application • SSRF Shanghai, BEPCII Beijing, and USTC Heifei, synchrotron radiation facilities • CARR and CSNS, neutron facilities

  3. Scope of study • Nuclear physics with stable nuclei • SHE • Reaction and structure • Nuclear physics with unstable nuclei • Reaction • Structure • Nuclear astrophysics • Funded by • MOST, 973 • NSFC • CAS, MOE, CAEA, and other funds • Societies and meetings • NN2009, held in Beijing in August 16-21, 2009 • China nuclear physics society • Experimental • IMP, CSR, HI physics • CIAE, HI-13, BRIF, low E NP • Other: IHEP, SINAP, PKU, USTC and others • Theoretical • All institutes above • PKU, THU, plus other universities

  4. Two major facilities in nuclear physics BeijingBRIF, BRIF II , Low E HI, RIB, 2013 Lanzhou, CSRMed E HI, RIB, 2008

  5. Research activities • Physics • Reaction and others • around coulomb in Beijing, few tens MeV A at Lanzhou and RIKEN • SIAP: Lanzhou exp, for total cross section 23Al, 27P and 17F, Riken exp, 23Al; 2p emission in Lanzhou for CIAE • reaction 17F+12C at CNS and near barrier and fusion, in CIAE • PKU: 17Ne, 16C Lanzhou, 6He and 8He in RIKEN, transfer and breakup • CSR mass measurement in Lanzhou • Decay, and the PKU for beta-n, 21N • In-beam gamma exp, CIAE, Lanzhou, Jilin, TU, PKU, stale nuclei • Nuclear astrophysics, indirect and direct and decay, in CIAE, Lanzhou, TRIUMF and CNS • Super heavy elements: mainly performed in Lanzhou • 1st Observation of antimatter hyper-nucleus: RHIC STAR-SIAP • Many theoretical activities • Detector • Good collaboration in gamma array: Beijing-Lanzhou • Charged particle array, Lanzhou, CIAE and PKU • PKU for beta-n decay • Neutron detection wall, Lanzhou and PKU • Gas fill separator for SHE in Lanzhou

  6. 26Mg+243Am266Bh+3n E=9.03±0.08 MeV T1/2=0.66s Recent research highlights 21N

  7. Detector developments

  8. CSR in Lanzhou

  9. N ECR: keV SFC: 10 AMeV (H.I.),17~35 MeV (p) SSC:100 AMeV (H.I.), 110 MeV (p) CSRm:1000 AMeV (H.I.), 2.8 GeV (p) SSC SFC CSRe ECR RIBLL2 RIBLL1 CSRm RIBLL1: tensAMeV (RIBs) RIBLL2: hundreds AMeV (RIBs & HCI) Introduction to HIRFL HIRFL: Heavy Ion Research Facilities in Lanzhou Stable Beams Radioactive Beams

  10. History of CSR 1993 Original idea 1996 Proposal 1998 Approved 2000-2005 Construction 2006-2007 Commissioning 2008-2009 Operation & Experiments

  11. BRIF in Beijing

  12. ISOL Cyclotron Tandem SCL BRIF(Beijing rare ion beam facility) 100 MeV 200 mA compact proton cyclotron 20000 mass resolution ISOL, 2 MeV/q super-conducting LINAC Already funded, but requiring additional supplement Brief idea in 1990, supported in 2004 Available in 2011-2012

  13. RIB intensity expected

  14. Project Milestone • Original idea in 1990 • Evaluation in 1997 • Project approved in 2003 • Feasibility plan approved ($27 M) in 2004 • First budget ($20 M) come to CIAE in 2005 • Renewed feasibility plan finished in 2006 • Revised feasibility plan submitted in 2008 • Revised feasibility plan got permission in Aug. 2009 ($52 M) • Project design report approved in July 2010 • Deliver to user in 2013

  15. BRIF status in 2010 • Cyclotron: magnet rough finished, with detailed fabrication finished • ISOL: design finished, target-source area in progress • SC linac: design finished, all the fabrication in progress • Civil engineering will start by the end of the year

  16. Engineering layout

  17. 3D internal structure of proton cyclotron

  18. Magnet design and fabrication

  19. CARR and CSNS

  20. CARR: China Advanced Research Reactor CARR get its first criticality in May 13!

  21. Neutron physics: Neutron scattering Residual stress diffractometer cooperated with Switzerland

  22. CSNS in Guangdong

  23. 132Sn 91Kr Conceptual of CARIF • China Advanced Rare Ion-beam Facility I. Tanihata, NIM B266(2008)4067 132Sn, 91Kr, 142Xe 132Sn, 91Kr, 142Xe 130Cd, 78Ni, 138Sn nth ISOL同位素分离器 FRS 次级束流线 LINAC直线加速器 Halo r process Magic CARR 反应堆 108-9pps 107-8pps 102-3pps 8x1014cm2s-1 300 keV 150 MeV/A 50 MeV/A 132Sn, 91Kr, 142Xe SHE Reaction Structure 10 MeV/A Stable beam N/Z 238U, 1.57 48Ca , 1.4 136Xe, 1.52 Fission beam T1/2 N/Z 132Sn, 39.7 s, 1.64 91Kr , 1.8 s, 1.53 142Xe, 1.22 s, 1.63 Fragmentation of fission product can result highly n-rich ion beam!

  24. Summary • Nuclear physics in China developed rapidly, driving by CSR, BRIF, CARR, and future facilities and research projects • CSR, BRIF and new project will open up exciting research opportunities in nuclear physics • We would like to collaborate with foreign colleagues, especially for the active research and recruiting of user groups after the facility commission

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