上海粒子加速器大科学装置概述被引量：1

Overview of Particle Accelerator Based Large-Scale Facilities at Shanghai

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摘要先进粒子加速器包括射频直线加速器和环形同步加速器等,不仅极大地加速了人类从核物理迈向基本粒子物理的进程,而且同时派生出了同步辐射光源、自由电子激光、质子/重离子治疗仪等一批涉及生命科学、材料科学、能源科学、物理学、化学和医学等重大前沿学科研究和应用的大科学装置。上海已经成为我国并且正在成为国际上先进加速器科学中心之一,本文概述性地介绍上海先后建成的第三代同步辐射光源、软X射线自由电子激光装置、先进质子治疗装置、以及正在建设的硬X射线自由电子激光,并对上海未来粒子加速器学科和大科学装置的发展方向做出总结和展望。 Particle accelerators,notably radio frequency linear accelerators and circular synchrotrons,have revolutionized the scientific realm from nuclear physics to elementary particle physics.These advancements have paved the way for the emergence of large-scale scientific facilities,which play a pivotal role in critical frontier disciplines such as life science,material science,energy science,physics,chemistry,and medicine.Scientific facilities like the synchrotron radiation light source,free-electron laser,and proton/heavy ion therapy facility are prime examples of this advancement.Shanghai has emerged as a leader in advanced accelerator technology in China,aiming to secure a position among the premier international accelerator centers.This paper offers a succinct review of Shanghai's third-generation synchrotron radiation light source,soft X-ray free-electron laser,advanced proton therapy facility,and the hard X-ray free-electron laser.Furthermore,it provides an overview and future prospects of the development of particle accelerators and large-scale scientific facilities in Shanghai.

作者赵振堂戴志敏张文志刘波邓海啸张满洲田顺强 ZHAO Zhentang;DAI Zhimin;ZHANG Wenzhi;LIU Bo;DENG Haixiao;ZHANG Manzhou;TIAN Shunqiang(Shanghai Advanced Research Institute,Chinese Academy of Sciences,Shanghai 201210,China;Shanghai Institute of Applied Physics,Chinese Academy of Sciences,Shanghai 201800,China)

机构地区中国科学院上海高等研究院中国科学院上海应用物理研究所

出处《复旦学报（自然科学版）》 CAS CSCD 北大核心 2023年第3期293-309,共17页 Journal of Fudan University：Natural Science

关键词粒子加速器大科学装置同步辐射自由电子激光质子治疗装置 particle accelerator large-scale scientific facilities synchrotron radiation free-electron laser proton therapy facility

分类号 TN248 [电子电信—物理电子学]

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参考文献16

1Yu Zhang,Wen-Cheng Fang,Xiao-Xia Huang,Jian-Hao Tan,Shao-Peng Zhong,Cheng-Cheng Xiao,Jun-Qiang Zhang,Cheng Wang,Yu-Qing Yang,Zhen-Tang Zhao.Radio frequency conditioning of an S-band accelerating structure prototype for compact proton therapy facility[J].Nuclear Science and Techniques,2021,32(6):94-107. 被引量：3
2Nan‑Shun Huang,Zi‑Peng Liu,Bang‑Jie Deng,Zi‑Han Zhu,Shao‑Hua Li,Tao Liu,Zheng Qi,Jia‑Wei Yan,Wei Zhang,Sheng‑Wang Xiang,Yang‑Yang Lei,Ya Zhu,Yong‑Zhou He,Qi‑Bing Yuan,Fei Gao,Rong‑Bing Deng,Sen Sun,Zhi‑Di Lei,Zhi‑Qiang Jiang,Meng‑Qi Duan,Yuan Zhuan,Xue‑Fang Huang,Peng‑Cheng Dong,Zhong‑Liang Li,Shang‑Yu Si,Lian Xue,Si Chen,Yong‑Fang Liu,Ya‑Jun Tong,Hai‑Xiao Deng,Zhen‑Tang Zhao.The MING proposal at SHINE:megahertz cavity enhanced X‑ray generation[J].Nuclear Science and Techniques,2023,34(1):51-85. 被引量：2
3苗春晖,刘鸣,舒航,殷重先,赵振堂.质子点扫描照射位置控制系统设计[J].核技术,2018,41(4):17-24. 被引量：4
4Ming Liu,Haiyang Zhang,Hang Shu,Chongxian Yin,Liying Zhao,Lianhua Ouyang,Rui Li,Songqing Tan,Zhishan Wang,Hanwen Du,Haiqun Zhang,Manzhou Zhang,Kecheng Chu,Xiaolei Dai.Technical commissioning of the spot scanning system in Shanghai Proton Therapy Facility[J].Radiation Detection Technology and Methods,2020,4(1):46-55. 被引量：2
5吴军,杜涵文,薛松,潘家珍,杜月斐,龙亚文.Gantry optimization of the Shanghai Advanced Proton Therapy facility[J].Nuclear Science and Techniques,2015,26(4):17-21. 被引量：1
6杨朝霞,李德明,张满洲.基于Geant4模拟的质子治疗束配系统的束流光学设计[J].核技术,2013,36(7):21-25. 被引量：3
7Yu-Hui Yang,Man-Zhou Zhang,De-Ming Li.Simulation study of slow extraction for the Shanghai Advanced Proton Therapy facility[J].Nuclear Science and Techniques,2017,28(9):1-7. 被引量：3
8齐争,黄楠顺,邓海啸,刘波,王东.上海硬X射线自由电子激光装置光源性能参数与稳定性研究[J].光学学报,2022,42(11):208-215. 被引量：2
9Jia-Dong Fan,Ya-Jun Tong,Yong-Gan Nie,Zi-Chen Gao,Bo He,Hui Luan,Dong-Hao Lu,Jian-Hua Zhang,Di-Fei Zhang,Xin-Ye Yuan,Jia-Hua Chen,Zhi Guo,Tao Liu,Meng Zhang,Chao Feng,Hai-Xiao Deng,Bo Liu,Zhen-Tang Zhao,Zhi Liu,Huai-Dong Jiang.First commissioning results of the coherent scattering and imaging endstation at the Shanghai soft X-ray free-electron laser facility[J].Nuclear Science and Techniques,2022,33(9):48-58. 被引量：1
10Jiawei Yan,Nanshun Huang,Haixiao Deng,Bo Liu,Dong Wang,Zhentang Zhao.First observation of laser–beam interaction in a dipole magnet[J].Advanced Photonics,2021,3(4):48-53. 被引量：1

二级参考文献32

1[1]Chen S Y,Xu H J,Zhao Z T.Shanghai Synchrotron Radiation Facility,PAC'99,New York,March 27-April 2,1999.
2[2]Liu G M,Dai Z M,et.al.High Energy Physics and Nuclear Physics,2006,30:144-146.
3[3]Winick H.Synchrotron Radiation Research,ISBN-10:0306403633,September 30,1980.
4[4]Conceptual Design Report of NSLS-Ⅱ(Chapter 3 Science at NSLS-Ⅱ),2006
5[5]Shenoy G,Viccaro P J.J Synchrotron Rad,2005,12:123.
6[6]Sham T K.Chemical applications of synchrotron radiation ISBN 978-981-02-4480-4,981-02-4480-0(set),Jun 2002
7[7]Ari I E.Applications of Synchrotron Radiation:Micro Beams in Cell Micro Biology and Medicine,(Biological and Medical Physics,Biomedical Engineering),ISBN-10:3540464247 ISBN-13:978-3540464242,April 12,2007
8[8]Rack A.Synchrotron Radiation Based Imaging Methods for Industrial,DIR 2007-International Symposium on Digital industrial Radiology and Computed Tomography,June 25-27,2007,Lyon,Franc.
9[9]Pantos E.Applications of Synchrotron Radiation to Archanologicai Ceramics,Modern Trends in Scientific Studies on Ancient Ceramics,BAR Internationai Series1011,2002,377-384
10Isacsson U, Montelius A, Jung B, et al. Comparative treatment planning between proton and X-ray therapy in locally advanced rectal cancer[J]. Radiother Oncol, 1996, 41(3): 263-272.

共引文献47

1吴宸,张志远,徐以会,宋丽,董晓浩,刘志.硬X射线自由电子激光分束延迟光学系统[J].激光与光电子学进展,2023,60(1):335-341.
2ManZhou Zhang (1) ,Jie Hou (1) ,HaoHu Li (1) .Coupling measurement and correction at the SSRF storage ring[J].Science China(Physics,Mechanics & Astronomy),2011,54(S2):201-206. 被引量：1
3CAI Jun,XIA XiaoBin,XU XunJiang,LIU Xin,XU JiaQiang,WANG GuangHong,ZENG Ming.Monitoring system experiments on beam loss at SSRF injector[J].Science China(Physics,Mechanics & Astronomy),2011,54(S2):279-282. 被引量：1
4姜伯承,陈光玲,陈建辉,刘桂民,赵振堂.Observation of beam instability in the SSRF storage ring[J].Chinese Physics C,2009,33(S2):75-77.
5田顺强,张文志,李浩虎,张满洲,后接,周雪梅,刘桂民.Linear optics calibration and nonlinear optimization during the commissioning of the SSRF storage ring[J].Chinese Physics C,2009,33(S2):83-85. 被引量：1
6张满洲,李浩虎,陈建辉,田顺强,刘桂民,李德明.基于LOCO的上海光源储存环线性光学参数校正(英文)[J].强激光与粒子束,2009,21(12):1893-1897. 被引量：2
7JIANG MianHeng,YANG Xiong,XU HongJie,ZHAO ZhenTang,DING Hao.Shanghai Synchrotron Radiation Facility[J].Chinese Science Bulletin,2009,54(22):4171-4181. 被引量：19
8FU Shen,JIANG Guoliang.Potential application of SSRF in radiation oncology: The aspects of radiobiology[J].Nuclear Science and Techniques,2009,20(6):325-330.
9赵振堂,王东.X射线自由电子激光发展(邀请论文)(英文)[J].中国激光,2010,37(9):2242-2252. 被引量：1
10FANG WenCheng,GU Qiang,TONG DeChun,ZHAO ZhenTang.Design optimization of a C-band traveling-wave accelerating structure for a compact X-ray Free Electron Laser facility[J].Chinese Science Bulletin,2011,56(32):3420-3425. 被引量：9

同被引文献31

1Fengshuo Dong,Hang Li,Bing Liu,Ruidong Liu,Keyong Hou.Protonated acetone ion chemical ionization time-of-flight mass spectrometry for real-time measurement of atmospheric ammonia[J].Journal of Environmental Sciences,2022,34(4):66-74. 被引量：2
2方向,覃莉莉,白岗.四极杆质量分析器的研究现状及进展[J].质谱学报,2005,26(4):234-242. 被引量：36
3Rui Yang,Bin Yang,Chao-qun Huang,Li-xia Wei,Jing Wang,Xiao-bin Shan,Liu-si Sheng,Yun-wu Zhang,Fei Qi,Chun-de Yao,Qi Li,Qing Ji.VUV Photoionization Study of the Allyl Radical from Premixed Gasoline/Oxygen Flame[J].Chinese Journal of Chemical Physics,2006,19(1):25-28. 被引量：3
4齐飞.同步辐射真空紫外单光子电离技术及其应用[J].中国科学技术大学学报,2007,37(4):414-425. 被引量：2
5北京同步辐射装置介绍[J].现代物理知识,2008(2):41-41. 被引量：1
6谭国斌,高伟,黄正旭,洪义,傅忠,董俊国,程平,周振.真空紫外灯单光子电离源飞行时间质谱仪的研制[J].分析化学,2011,39(10):1470-1475. 被引量：39
7谢园园,花磊,侯可勇,陈平,崔华鹏,赵无垛,陈文东,李京华,李海洋.单光子电离质谱法在线分析牙膏中的香精物质[J].分析化学,2012,40(12):1883-1889. 被引量：10
8陈文东,侯可勇,陈平,李芳龙,赵无垛,崔华鹏,花磊,谢园园,李海洋.单光子/光电子在线质谱实时分析聚氯乙烯热分解/燃烧产物[J].环境科学,2013,34(1):34-38. 被引量：6
9贾良元,周忠岳,李玉阳,杨玖重,齐飞.基于同步辐射光电离质谱的燃烧与能源研究新方法[J].中国科学：化学,2013,43(12):1686-1699. 被引量：5
10洪延姬.燃烧场吸收光谱诊断技术研究进展[J].实验流体力学,2014,28(3):12-25. 被引量：16

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4无,《空间科学学报》编辑部.空间科學學報征稿简则[J].空间科学学报,2023,43(2).
5蒋俊国,马毅超,李秋菊,暴子瑜,李晟昊,章红宇.高计数率时间测量读出电子学系统设计[J].核电子学与探测技术,2022,42(6):1123-1128.
6尹亮,曾孟麒,尹聪聪,怀平.SHINE束线站定时系统束团编号的数据采集[J].核技术,2023,46(6):1-7.
7夏心红,孙昱.“山”与“宝石”的相遇——珠海横琴科学城(二期)创新中心与科技交流中心[J].中外建筑,2023(5):6-11.
8程方益,王双印,周天华.《电催化与电合成》专辑序言[J].电化学,2023,29(2).
9胡思得,邹亚明,杨柳.弘扬科学家精神,做新时代的追梦人——纪念杨福家院士[J].复旦学报（自然科学版）,2023,62(3).
10徐洪杰,肖体乔.上海光源建设历程及其发展现状[J].复旦学报（自然科学版）,2023,62(3):310-321.

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上海粒子加速器大科学装置概述被引量：1

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