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Institute of Heavy Ion Physics
Kexin Liu November 5, 2008
Institute of Heavy Ion Physics General introduction
IHIP was Founded in 1984 45 permanent staff, 25 scientists and 20 technicians, about
60 graduate students Honorable Director: Prof. Chen Jiaer, Accelerator Physicis
t Former President of Peking University Former President of NSFC Main Research Direction: Accelerator Physics and Technology Nuclear Technology Based on Accelerators Neutron Physics Medical Physics
Part of State Key Laboratory of Nuclear Physics & Technology
Institute of Heavy Ion Physics Accelerator Technology
Superconducting Accelerator (SRF) SRF will play an very important role in future acceler
ators and light sources IHIP has developed SRF technology since 1988
Radio Frequency Quadrupole (RFQ) RFQ is very useful to accelerate heavy ions at low e
nergy with high beam current. RFQ has also developed at IHIP since 1990s. Neutron radiography technique based on high current
beam RFQ is developing
Institute of Heavy Ion Physics Accelerator Technology
1 MeV Heavy Ion RFQ
Separate Function RFQ (SFRFQ)—a new structure designed by IHIP
Institute of Heavy Ion Physics Accelerator Technology
X-RAY NEUTRON
Superconducting Radio Frequency (SRF) at IHIP
DC-SC Photoinjector
Cu-Nb Sputtering QWR
TESLA type superconducting cavity
SRF Accelerator based FEL
DC-SC Photoinjector
Beam loading Test at 4.2K (Aug. 2004)
Cu-Nb Sputtering QWR
Beam Loading Test in 2001
Energy gain: 500 keV
Eacc ~3MV/m
Institute of Heavy Ion Physics Main Operating Facilities
EN-18 26MeV Tandem
14C compact AMS
Home-made 4.5MeV Van de Graaff
Institute of Heavy Ion Physics Nuclear Technology
Research in Nuclear Technology include: Accelerator Mass Spectrometry (AMS) is mainly applied i
n Archeology, Earth science, Environmental science and Biomedical science.
Interaction between intense pulsed beams or clustered ion beams and materials
Basic physics problems in irradiation on biomaterials such as cells and biomolecules
Forming of nanopore, nanogrian and other nanostructures by ion beam irradiation.
Institute of Heavy Ion Physics Nuclear Technology
The age of Oracle bone was determined by AMS at IHIP for Xia-Shang-Zhou Chronology project.
Institute of Heavy Ion Physics Nuclear Technology
Appl. Phys. Lett. 90, 163102, 2007
Institute of Heavy Ion Physics Medical Physics
Medical Physics research was started in early 1990s as the application of nuclear technologies in Medicine, mainly working on the tumor diagnosis and treatment physics
Institute of Heavy Ion Physics Medical Physics
Data Analysis of fMRI
Getting maps of excited brain area superpositioned in high resolution morphological brain images
SRF Accelerator based FEL
Planned PKU-ERL-FEL Laboratory
Thank you!Thank you!
