Electronics System of MC 2002.9 IHEP, Beijing ___________________________________________
Institute of High Energy Physics (IHEP) Beijing 100049, China 2012.5.10
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Transcript of Institute of High Energy Physics (IHEP) Beijing 100049, China 2012.5.10
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Institute of High Energy Physics
(IHEP)
Beijing 100049, China
2012.5.10
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HistoryHistoryInstitute of Modern Physics, 1950
Institute of Atomic Energy 1958Institute of Atomic Energy 1958
Institute of High Energy Physics 1973Institute of High Energy Physics 1973
Now the largest comprehensive and fundamental Now the largest comprehensive and fundamental research institute in China.research institute in China.
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939
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1278
460
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1400
sci ent i st s & engi neers
support i ng staff
Total
Students
IHEP Staff
Scientists & engineers 939
Supporting staff 339
Total 1278
Students 460
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23%
27%
50%
contract
daily operation
projects and research
Budget ( 2010)
• 115 M contract
• 136 M daily operation
• 246 M projects and research
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Director
Y.F.Wang
Associate Director
X.M. Jiang
Division for Mega-science Facilities
CSNS Civil Construction
Beijing Synchrotron Radiation lab.
Division for Multi-disciplinary Studies
Division of Finance
Division for Scientific Planning
Division for Accelerators
Division for Conventional Facilities
Organizational Chart
Associate Director
H.Y. Wang
Office for Directorate
Division for Human Resources
Division for Experimental Physics
Division for Theoretical Physics
Division for Graduates
Division for Particle Astrophysics
Computing Center
Laboratory for Tech-R&D
Division for Tech-R&D and Marketing
Workshop
Associate Director
J.Q. Wang
Associate Director
L. Wei
Associate Director
J.W. Xi
Associate Director
X.A. Luo
Division for Logistic Support
Division for State –owned Assets
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Major Research Divisions
• Division for Experimental Physics
• Division for Accelerators
• Division for Particle Astrophysics
• Division for Multi-disciplinary Research
• Division for Theoretical Physics
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Supporting Units
• Computing Center
• Laboratory for Tech-R&D
• Workshop
• Division for Conventional Facilities
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Major Scientific Activities
• Under Division for Experimental Physics
a. BESIII experiment based on the Beijing Electron
Positron Collider
b. DYB Reactor Neutrino Experiment
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韩国 (3)
Korea University Seoul National University Chonbuk National Univ.
日本 (5)
Univ. of Tokyo
Nikow UniversityTokyo Inst. of Technology
Miyazaki UniversityKEK
美国 (4)
University of HawaiiUniversity of Texas at DallasColorado State University
Stanford Linear Accelerator Center
英国 (1)Queen Mary University
中国 (15)中科院高能所中国科技大学
山东大学 , 浙江大学华中师范大学
上海交通大学 北京大学 , 高等科技中心 武汉大学 ., 南开大学 .
河南师范大学湖南大学 , 辽宁大学 . 清华大学 , 四川大学
BES Collaboration
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BES Experiment lepton, decay and DS
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DYB CollaborationDYB Collaboration
~250 researchers
中国 中国 (20)(20) 高能物理所,北京师范大学,成都理工大学,中国高能物理所,北京师范大学,成都理工大学,中国广东核电集团,原子能研究院,东莞理工学院,南广东核电集团,原子能研究院,东莞理工学院,南京大学,南开大学,山东大学,上海交通大学,深京大学,南开大学,山东大学,上海交通大学,深圳大学,清华大学,中国科学技术大学,中山大圳大学,清华大学,中国科学技术大学,中山大学学 ,, 香港大学,香港中文大学,台湾大学,台湾联香港大学,香港中文大学,台湾大学,台湾联合大学,台湾交通大学,华北电力大学合大学,台湾交通大学,华北电力大学
美国 美国 (16)(16)布鲁克海汶国家实验室,加州理工大学,伯克利布鲁克海汶国家实验室,加州理工大学,伯克利国家实验室,依阿华州立大学,伊利诺伊理工学国家实验室,依阿华州立大学,伊利诺伊理工学院,普林斯顿大学,伦斯勒理工学院,加州大学院,普林斯顿大学,伦斯勒理工学院,加州大学伯克利分校,加州大学洛杉矶分校,锡耶纳学院,伯克利分校,加州大学洛杉矶分校,锡耶纳学院,休斯顿大学,威斯康星大学,弗吉利亚理工学院,休斯顿大学,威斯康星大学,弗吉利亚理工学院,伊利诺伊大学,辛辛那提大学,威廉玛丽学院伊利诺伊大学,辛辛那提大学,威廉玛丽学院
欧洲 欧洲 (3)(3) 俄罗斯杜布纳联合核子研究所俄罗斯杜布纳联合核子研究所俄罗斯库尔恰托夫研究所俄罗斯库尔恰托夫研究所捷克查尔斯大学 捷克查尔斯大学
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DYB Reactor Neutrino ExperimentDYB Reactor Neutrino Experiment
• 中微子是构成物质世界的最基本单元。已发现的中微子振荡有两种。• 目的:寻找中微子的第三种振荡,用 13 表示。• 意义: 13 的大小决定了未来中微子物理研究的发展方向。• 用大亚湾反应堆测量 13 是我国粒子物理发展的一个重大机遇:
功率高(世界第二)、周围山体屏蔽宇宙线本底、造价较低• 难点:精度较过去提高一个量级。• 我们的突破:独特设计 + 环境优势 达到精度要求。
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– 通过远近点之间的相对测量提高精度。– 同一点的多模块中微子测量以降低系统误差并相互校验。– 多重宇宙线反符合探测器提高效率,降低系统误差。
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DYB Most Recent DevelopmentsDYB Most Recent Developments• Civil construction finished , conventional facilities start running
• Data-taking started from August 2011, notable results achieved
• All the 8 detectors expected to run after summer shut-down 2012
11 号厅水池注高纯水并开始准备取数号厅水池注高纯水并开始准备取数 11 号厅正式取数号厅正式取数
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• From the press release:• The copious data revealed for the first time the strong
signal of the effect that the scientists were searching for, a so‑called “mixing angle” named theta one-three (written θ13), which the researchers measured with unmatched precision. The Daya Bay collaboration’s first results indicate that theta one-three, expressed as sin2 2 θ13, is equal to 0.092 plus or minus 0.017.
• “This is a new type of neutrino oscillation, and it is surprisingly large,” says Yifang Wang ……….
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• “The Daya Bay experiment plans to stop the current data-taking this summer to install a second detector in the Ling Ao Near Hall, and a fourth detector in the Far Hall, completing the experimental design,” says Yifang Wang.
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Major Scientific Activities
• Under Division for Accelerators
a. BEPCII
b. CSNS
c. ADS
d. BAPS
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BEPC upgrage :双环高亮度对撞机 BEPCII
Double-ring Collider
640m RMBA factor of 1002003-2008
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CSNS• Budget : 1.67b RMB central government
500m RMB local government
land free
Construction siteConstruction site
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CSNS Schedule2011年 10月 20日 Ground-breaking, Dongguan, Guangdong
• Schedule for construction: by 2018
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ADS- Accelerator-driven Sub-critical System
• Key project of CAS Innovation 2020• The main purpose of developing ADS is to separate
and transmute irradiated nuclear fuel.• Three major units: accelerator, target and separation• Long-term target to 2032: industrial demonstration Short-term targets to 2015: 250Mev proton beam, first phase target system reactor prototype
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RFQ+CH
RFQ+Spoke
2013~5 MeV
201525~50 MeV
201X50/150 MeV
~20220.6~1 GeV
~20321.2~1.5 GeV
5~10 MWt 100 MWt ≥1 GWt
验证两条技术路线
实现器 - 靶 -堆系统分别集
成
调试运行实现系统总集成
实现 II 期目标 实现 III 期目标
10 MeV
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• BAPS — Beijing Advanced Photon Source
A 5-GeV light source, with very small emittance,
potential to have ERL and X-FEL in the future
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What is BAPS? (Conceptual Design Stage)
Going to be one of the key facilities in Beijing Advanced Science & Innovation Center (BASIC)
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• Very initial design phase
• Remains to be finally approved
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Major Scientific Activities
Under Division for Particle Astrophysics
a. YBJ Cosmic Ray Observatory
b. HXMT - Hard X-ray Modulate Telescope
c. LHAASO Project
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YBJ Cosmic Ray Observatory
• YBJ Cosmic Ray Observatory is located in the Yangbajing (YBJ) valley (90°26'E, 30°13'N) of Tibetan Highlands, near the cross-point of Qinghai – Tibet, 90 km from the city of Lhasa, making it the best site as a high altitude observatory in the world.
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Yangbajing Cosmic Ray Observatory ( a.s.l. 4300m )
IHEP-INFN RPC Array & China-Japan Air Shower Array
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IHEP-INFN ARGO Experiment
• Gamma-ray astronomy • Gamma ray burst physics• Antiproton/proton ratio measurement at about 1 TeV • Sun and helio-sphere physics• Detailed study of air shower in the energy range of
1012-1015 eV• Measurements of primary proton spectrum in 10 – 200
TeV region,
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China-Japan Air Shower Array
• To study the configuration and variation of the solar and interplanetary magnetic fields
• To search and monitor the Gamma ray sources at 3TeV.
• To study the energy spectrum and "knee" of primary cosmic rays.
• To monitor the time variation of cosmic rays at the energy higher than 14 GeV
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HXMT-Hard X-ray Modulated Telescope
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HXMT
The Hard X-ray Modulated Telescope (HXMT) is a
collimated hard X-ray (20-200 keV) telescope with high
sensitivity and spatial resolution. It will be the first astronomical
satellite in China. Scientific targets:
Highly sensitive survey of cosmic ray sources
(1-250 keV)
Search and observe dark holes and neutron
Stars………………
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HXMT
Approval: 2011
Lunch: 2014
Weight: 2800 kilo
Lifetime: 4 years
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Search for the source of cosmic
rays 自从 HESS 在 1912 年发现宇宙线以来,宇
宙线的起源问题一直困扰着整个科学界,成文粒子物理学、天文学、宇宙学共同关注的重要科学命题。
New physics
开展暗物质研究,超越加速器物理能标之上的新物理问题
Cross-discipline research
大气、天文、气象、空间等多学科
2002 年美国国家研究委员会2004 年美国国家科学技术委员会
确定的研究前沿 :《连接夸克和宇宙:
新世纪 11 个科学问题》
Scientific targets
LHAASO-Large High Altitude Air Shower Observation
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A collaboration of 19 research institutions so far
Estimated Cost: 900m RMB
Construction: 4 years from start
LHAASO
第一步:探测器基础设施和 WCDA 土建工程;第二步:探测器制作;第三步:探测器安装和调试;第四步:数据采集站及其它附属设施的建设;第五步:联合调试和试运行,准备验收
总体进度 48 个月第一步 10 个月
第二步 36 个月第三步 36 个月
准备验收、正式运行2 个月
第四步 6 个月 安装、联合调试、试运行
第五步 30 个月
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Major Scientific Activities
• Under Division for Multi-disciplinary Studies
a. BSRF Beijing Synchrotron Radiation Facility
b. Nano-science Studies
c. BALS
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Beijing Synchrotron Radiation Facility
• As part of the Beijing Electron Positron Collider ( BEPC ) project, Beijing Synchrotron Radiation Facility (BSRF) was constructed and opened to users in 1991. After the BEPC upgrading, BSRF runs in 2.5GeV full-energy injection and 250mA beam current in dedicated mode.
• There are 3 experimental halls ( 12# , 13# , 15# ) , 5 insertion devices , 14 beamlines and 14 experimental stations.
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• Beamline Introduction• 1W1A –Diffuse x-ray Scattering• 1W1B -X-ray Absorption Fine Structure• 1W2A - Small Angle X-ray Scattering• 1W2B -Macromolecular crystallography• 3W1A -Macromolecular crystallography• 3B1A and 3B1B-LIGA and Lithography• 4W1A -X-ray Imaging
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• 4W1B -X-ray Fluorescence Microanalysis
• 4W2 -High Pressure Structure
• 4B7A-Mid-energy Spectroscopy
• 4B7B -Soft X-ray Optics
• 4B8 -Vacuum Ultraviolet
• 4B9A -X-ray Diffraction
• 4B9B -Photoemission Spectroscopy
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Nano-science Studies
• There is a “Key Laboratory for Biomedical Effects of Nano-materials and Nano-safety” under Division for Multi-disciplinary Studies. Its major research items include:
• Regarding biomedical effects of nano-materials and nano-safety issues, characterization of nano-particles, methodology and metrology.
• Nano-toxicology: hazards to human & environment
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• -Behaviors of nanoparticles in air, water and other parts of the environment (including foods,and drugs)
• Nano-biotechnology and Nano-medicines-Nanomedicines for cancer nanotechnology, and for earlier diagnoses of human diseases
• Nanosurface Chemistry-Modification of nano-particles by surface chemistry, for the purpose of reducing nano-toxicity and enhancing biomedical functions of nano-materials
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Beijing Advanced Light Source
• Afore-mentioned
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Major Cooperative Projects
• DYB• BESIII• CMS• Atlas• EXFEL• YBJ• ILC• BELLE
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Medium Term PlansMedium Term Plans
• Charm physics @ BEPCII • Modulated hard X-ray telescope satellite• Neutrino experiments (second phase)• Yangbajing Cosmic ray Observatory• LHC exp. and ILC R&D • CSNS and ADS
– Chinese Spallation Neutron Source 100KW→200 KW– Accelerator Driven Subcritical system
• Hard X-ray FEL (BALS)• Multi-disciplinary studies
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Gradually going to: multi-disciplinary research
Thank you!