基本信息
孙良亭  男  博导  中国科学院近代物理研究所
电子邮件: sunlt@impcas.ac.cn
通信地址: 兰州市南昌路509号
邮政编码: 730000

研究领域

  • 离子源技术

  • 加速器技术与应用

招生信息

  • 离子源与离子束技术及物理

  • 离子源与离子束应用

  • 加速器相关技术与应用

招生专业
082703-核技术及应用
招生方向
离子源技术
加速器技术
离子束应用

教育背景

2003-03--2004-06   中国科学院近代物理研究所   博士
2002-03--2003-02   法国CEA/Grenoble   联合培养博士
1999-09--2002-02   中国科学院近代物理研究   硕博连读
1995-09--1999-07   安徽大学物理系   学士
学历
中国科学院研究生院 -- 研究生
学位
中国科学院研究生院 -- 博士

工作经历

工作简历
  • 2012-01--现在 中国科学院近代物理研究所 离子源室主任 
  • 2009-10--2011-12 美国密西根州立大学 Research Associate 
  • 2008-03--2009-09 中国科学院近代物理研究所 离子源室副主任 
  • 2004-07--2008-02 中国科学院近代物理研究所 职工 

社会兼职

  • 2017-现在,美国FRIB项目离子源系统顾问

  • 2019-2020,IPAC20 SAB委员会委员

  • 2018-2019,18届国际离子源会议SPC组委主席

  • 2013-2017,ICIS国际离子源会议SPC组委委员

  • 《中国物理C》、《原子物理与核物理》、《核技术》、《X-Ray Spectrometry》、《Review of Scientific Instruments》、《NIMA》、《NIMB》、《IEEE Transactions on Applied Superconductivity》、《SCIENCE CHINA Physics》、《China Physics B》《等离子体科学和技术》等杂志评委委员

教授课程

离子源技术
研究生专业课程
离子源技术

专利与奖励

奖励与荣誉
  • 2018年度,中科院青年科学家奖;

  • 2018年度,第九届甘肃省青年科技奖;

  • 2017年度,中科院优秀“****”奖;

  • 2014年度,共青团甘肃省委,五四青年奖章;

  • 2012年度,甘肃省科技进步奖,二等奖,第三排名;

  • 2008年度,国家科技进步,二等奖,第二排名;

  • 2008年度,Richard Geller PRIZE,  唯一获奖人;

  • 2007年度,甘肃省科技进步一等奖,第二排名;

  • 2008年度,甘肃省人民政府,青年岗位科技能手;

  • 2006年度,中国粒子加速器协会,“希望杯”优秀论文,一等奖。

专利成果

  • 痕量气体同位素富集系统和方法

  • 同位素富集靶装置和同位素富集方法

  • 固态氢靶系统和使用它的激光离子源

  • 一种鸡尾酒束流制备装置及方法

  • 一种核孔膜工业生产用的重离子生产装置



出版信息

近期发表论文

  1. L. Sun; H. W. Zhao*; H. Y. Zhao; W. Lu; J. W. Guo; Y. Cao; Q. Wu; C. Qian; Y. Yang; X. Fang; Z. M. Zhang; X. Z. Zhang; X. H. Guo; Z. W. Liu; Overview of high intensity ion source development in the past 20 years at IMP , Rev.Sci. Instrum., 2020, 91(2). (期刊论文);

  2. Sun L.*; Zhao H.W.; Lu W.; Guo J.W.; Yang Y.; Jia H.; Lu L.; Wu W.; Review of highly charged ion production with ECR ion source and the future opportunities for HCI physics , X-Ray Spectrometry, 2020, 49(1): 47-53.(期刊论文)

  3. J. Q. Li; Y. Cao; L. T. Sun*; X. Z. Zhang; J. W. Guo; X. Fang; H. Wang; H. W. Zhao; Intense carbon beams production with an all permanent manget electron cyclotron resonance ion source for heavy ion medical machine, Rev. Sci. Instrum, 2020, 91(1). (期刊论文);

  4. L Sun*; H W Zhao; W Lu; J W Guo; L X Li; Z Shen; L B Li; W Huang; X Z Zhang; H Y Ma; Y Yang; J Q Li; Y Cao; W H Zhang; X Fang; Y M Ma; Y C Feng; B M Wu; W Wu; L Z Ma; Highly charged ECR ion source development at IMP , J. Phys.: Conf. Ser., 2020, 1401(2): 0-012006. (期刊论文);

  5. Z. H. Jia; Amin. L. Tong; L. Sun*; Y. G. Liu; J. L. Liu; Q. Wu; X. Fang; W. S. Yang; Y. H. Guo; F. Ritterbusch; Z.-T. Lu; W. Jiang; G. M. Yang; Q. W. Chen; An electromagnetic separation system for the enrichment of 39Ar , Rev. Sci. Instrum., 2020, 91(3): 0-033309. (期刊论文);

  6. Y Yang; Y H Zhai; P Y Jiang; L T Sun; L Lu; H Jia; W P Dou; X Fang; L Jing; Y Wei; W Ma; L P Sun; W Lu; Y H Guo; X J Liu; H W Zhao; Commissioning progress of LEAF at IMP , J. Phys.: Conf. Ser., 2020, 1401(2): 0-012019. (期刊论文)

  7. Y J Yuan*; D Q Gao; L Z Ma; L J Mao; R S Mao; J Meng; Y W Su; L T Sun; Y Y Wang; J X Wu; Z Xu; J C Yang; W Q Yang; Q G Yao; X J Yin; B Zhang; W Zhang; Z Z Zhou; H W Zhao; G Q Xiao; J W Xia; Present status of HIRFL complex in Lanzhou , J. Phys.: Conf. Ser. , 2020, 1401(2): 0-012003. (期刊论文);

  8. X Fang; L T Sun*; Y J Yuan; Y Yang; C Qian; Y Cao; X Z Zhang; R F Chen; J X Wu; X X Li; H Wang; W Lu; H W Zhao; Development of a Pepper Pot probe to measure the Four-dimensional emittance of low energy beam of electron cyclotron resonance ion source at IMP , J. Phys.: Conf. Ser., 2020, 1401(2): 0-012023. (期刊论文)

  9. J. Q. Li*; L. T. Sun; Y. Yang; Y. Cao; X. Z. Zhang; X. Fang; J. W. Guo; Y. H. Zhai; H. Wang; B. H. Ma; L. B. Li; W. Lu; H. W. Zhao; Development of an all permanent magnet ECR ion source for low and medium charge state ions production, J. Phys.: Conf. Ser., 2020, 1401(2): 0-012022. (期刊论文)

  10.  C. Qian*; L. Sun; Z. H. Jia; L. B. Li; Y. M. Ma; X. Fang; J. W. Guo; H. Wang; W. Lu; X. Z. Zhang; H. W. Zhao; A new room temperature LECR5 ion source for the SESRI project , Rev. Sci. Instrum., 2020, 91(2): 0-023313. (期刊论文)

  11. J. W. Guo*; L. T. Sun; W. Lu; W. H. Zhang; Y. C. Feng; Z. Shen; L. X. Li; J. B. Li; X. Z. Zhang; D. Hitz; H. W. Zhao; A new microwave coupling scheme for high intensity highly charged ion beam poduction by high power 24-28 GHz SECRAL ion source, Rev. Sci. Instrum., 2020, 91(1): 0-013322. (期刊论文)

  12. Y. G. Liu; J. L. Liu; Q. Wu; L. T. Sun*; Ion beam production with an antenna type 2.45 GHz electron cyclotron resonance ion source , Rev. Sci. Instrum, 2020, 91(/): 0-023301. (期刊论文)

  13. X. Fang; L. T. Sun*; Y. J. Yuan; C. Qian; Y. Yang; W. Lu; H. W. Zhao; Emittance study of the high intensity highly charged heavy ion beams extracted from electron cyclotron resonance ion source , Rev. Sci. Instrum., 2020, 91(/) : 0-013317. (期刊论文)

  14. 朱丽; 吴巍; 俞树荣; 杜卓越; 陈玉泉; 梅恩铭; 孙良亭; FECR超导离子源磁体六极模拟线圈的Mirror结构设计及测试, 稀有金属材料与工程, 2019, 48(12): 4035-4038. (期刊论文)

  15. 方兴; 孙良亭; 原有进; 钱程; 陈若富; 武军霞; ECR源低能强流高电荷态离子束四维发射度测量仪的研制 , 原子核物理评论, 2019, 36(3): 313-321. (期刊论文)
  16. 陈涵; 许世伟; 武启; 李云居; 陈立华; 高丙水; 孙良亭; 唐晓东; 首次使用核反应法鉴别JUNA深地加速器A/q=2的束流种类, 原子核物理评论, 2019, 36(04): 414-418.(期刊论文)
  17. J. J. Zhang; H. Y. Zhao*; G. C. Wang; L. T. Sun; X. Z. Zhang; G. P. Li; H. W. Zhao; Ion charge state and energy distributions of laser produced plasma from pure metals and their alloy , Review of Scientific Instruments, 2019, 90(11): 0-123306. (期刊论文)
  18. Wang, G. C.; Zhao, H. Y.*; Jin, Q. Y.; Zhang, J. J.; Sun, L. T.; Zhao, H. W.; Laser ablation plasma with solenoid field confinement , Review of Scientific Instruments, 2019, 90(11): 0-113302. (期刊论文)
  19. Lu, W.*; Sun, L. T.; Qian, C.; Li, L. B.; Guo, J. W.; Huang, W.; Zhang, X. Z.; Zhao, H. W.; Production of intense uranium beams with inductive heating oven at Institute of Modern Physics , Review of Scientific Instruments, 2019, 90(11): 0-113318. (期刊论文)
  20. Jin, Q. Y.; Zhou, Y.; Sun, L. T.*; Liu, Y. G.; Zhang, X. Z.; Zhao, H. W.; Production of O- and O-2(-) beams with the negative ion source at Institute of Modern Physics , Review of Scientific Instruments, 2019, 90(11): 0-113317. (期刊论文)
  21. Yang, Y.*; Sun, L. T.; Zhai, Y. H.; Zhai, Y. J.; Shen, Z.; Qian, C.; Dou, W. P.; Ma, W.; Lu, L.; Guo, Y. H.; Fang, X.; Yuan, Y. J.; Sun, L. P.; Yang, J. C.; Zhao, H. W.; Heavy ion accelerator facility front end design and commissioning , Physical Review Accelerators and Beams, 2019, 22(11): 0-110101. (期刊论文)
  22. Sun Liangting*; Lu Wang; Mei Enming; Sabbi GianLuca; Wu Wei; XieDaniel; Zhao Hongwei; Superconducting Magnets for High Performance ECR Ion Sources , IEEE Transactions on Applied Superconductivity, 2018, 28(3): 0-4101606. (期刊论文)

发表著作

ICFA Beam Dynamics Newsletters #73, Ion Sources, April 2018, http://icfa-bd.kek.jp/Newsletter73.pdf

发表论文
[1] Wang, Xudong, Yang, Tongjun, Zhu, Li, Zheng, Shijun, Qian, Cheng, Wu, Wei, Sun, Liangting. Cryostat for HECRAL Superconducting Magnet. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY[J]. 2022, 32(6): [2] Wu, Wei, Mei, Enming, You, Wei, Ou, Xianjin, Liang, Yu, Wu, Beimin, Yang, Tongjun, Zhu, Li, Chen, Yuquan, Zheng, Shijun, Tong, Yujin, Wang, Xudong, Ni, Dongsheng, Yang, Wenjie, Lu, Jiaqi, Cheng, Yue, Sheng, Lina, Yao, Qingggao, Sun, Liangting, Yang, Jiancheng. Superconducting Magnet Development for the HIAF Accelerator Complex. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY[J]. 2022, 32(6): [3] BingZhang, Zhang, ZhangYong, Song, Xuan, Liu, Cheng, Qian, Xin, Fang, ChaoJie, Shao, Wei, Wang, JunLiang, Liu, JunKui, Xu, Yong, Feng, Zhu ZhiChao, Guo YanLing, Lin, Chen, Sun LiangTing, Yang ZhiHu, Yu DeYang. X-ray emission produced by interaction of slow highly charged Oq+ ions with Al surfaces. ACTA PHYSICA SINICA 70, 193201[J]. 2021, 70(19): [4] 王桂才, 赵环昱, 金钱玉, 张俊杰, 孙良亭, 赵红卫. Characteristics of Laser Ablation Plasma in the Diverging Magnetic Field of a Solenoid. 原子核物理评论[J]. 2021, [5] YG Liu, Q Wu, X Zhang, JL Liu, W Huang, Y Zhou, ZH Jia, YH Zhai, LT Sun. Design of a 180° electromagnetic isotope separator with inhomogeneous magnetic field. Nuclear Inst. and Methods in Physics Research, A. 2021, 1006: http://dx.doi.org/10.1016/j.nima.2021.165428.
[6] Qian Y Jin, Yu G Liu, Yang Zhou, Qi Wu, Yao J Zhai, Liang T Sun. RF and Microwave Ion Sources Study at Institute of Modern Physics. Plasma[J]. 2021, 4(22): 332-344, https://doaj.org/article/c87b34efcd974e70a1ead83f594f65cf.
[7] Huang, Wei, Liu, Yuguo, Sun, Liangting. Conceptual Design of an Electrostatic Trap for High-Intensity Highly Charged Pulsed Beam. IEEE TRANSACTIONS ON PLASMA SCIENCE[J]. 2021, 49(9): 2750-2756, [8] 孙良亭. An electromagnetic separation system for the enrichment of 39Ar. Review of Scientific Instruments. 2020, [9] Zhu Li, Wu Wei, Sun Liangting, Yu Shurong, Chen Yuquan, Wu Beimin, Mei Enming, Xin Canjie, Guan Mingzhi. Mechanical Design of the Half-length Prototype for a Superconducting FECR Ion Source. RARE METAL MATERIALS AND ENGINEERING[J]. 2020, 49(9): 3177-3181, https://www.webofscience.com/wos/woscc/full-record/WOS:000576197200037.
[10] 柳卫平, 李志宏, 何建军, 唐晓东, 连钢, 郭冰, 苏俊, 李云居, 崔保群, 孙良亭, 武启, 安竹, 谌阳平, 陈治钧, 杜先超, 符长波, 甘林, 贺国珠, Alexander Heger, 侯素青, 黄翰雄, 黄宁, 江历阳, Shigeru Kubono, 李荐民, 李阔昂, 李涛, MariaLugaro, 罗小兵, 马少波, 韩治宇, 李鑫悦, 马田丽, 梅东明, 南威克, 南巍, 陈晨, 张昊, 张龙, 曹富强, 钱永忠, 秦久昌, 任杰, 谭万鹏, Isao Tanihata, 王鹏, 王硕, 王友宝, 许世伟, 颜胜权, 曾志, 于祥庆, 岳骞, 曾晟, 张环宇1, 张辉, 杨丽桃, 张立勇, 张宁涛, 张奇玮, 张涛, 方晓, 张笑鹏, 张雪珍, 陈云华, 祁宁春, 吴世勇, 郭绪元, 周济芳, 何胜明, 宁金华, 岳剑锋. 锦屏深地核天体物理实验(JUNA)地面实验进展. 原子核物理评论. 2020, 8-, https://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFD&dbname=CJFDAUTO&filename=HWDT202003006&v=MjcyNjBlWDFMdXhZUzdEaDFUM3FUcldNMUZyQ1VSN3VmWmVkdEZpcmtVNzNCTFRyUGVyRzRITkhNckk5RllvUjg=.
[11] 陈立华, 崔保群, 马鹰俊, 马瑞刚, 唐兵, 黄青华, 马燮, 连钢, 郭冰, 柳卫平, 孙良亭, 武启. 用于锦屏深地核天体物理研究的强流加速装置的设计与试验进展. 原子能科学技术[J]. 2020, 54(11): 2231-2237, [12] 朱丽, 吴巍, 俞树荣, 陈玉泉, 梅恩铭, 马鹏, 姚庆高, 孙良亭. 超导离子源铌三锡六极线圈镜像磁场约束结构的优化设计. 原子核物理评论. 2020, 854-858, http://lib.cqvip.com/Qikan/Article/Detail?id=00002GOE5H4O7JP0MPDO5JP1MBR.
[13] Li, J Q, Sun, L T, Yang, Y, Cao, Y, Zhang, X Z, Fang, X, Guo, J W, Zhai, Y H, Wang, H, Ma, B H, Li, L B, Lu, W, Zhao, H W, IOP. Development of an all permanent magnet ECR ion source for low and medium charge state ions production. HEAVY ION ACCELERATOR TECHNOLOGY 2018null. 2020, 1401: [14] 孙良亭. A new microwave coupling scheme for high intensity highly charged ion beam poduction by high power 24-28 GHz SECRAL ion source,. Rev. Sci. Instrum.. 2020, [15] 朱丽, 吴巍, 孙良亭, 俞树荣, 陈玉泉, 吴北民, 梅恩铭, 辛灿杰, 关明智. FECR超导离子源Nb3Sn磁体半长度样机的结构分析. 稀有金属材料与工程[J]. 2020, 49(9): 3177-3181, http://lib.cqvip.com/Qikan/Article/Detail?id=7103133374.
[16] Wu, Beimin, Wang, Xingzhe, Guan, Mingzhi, Xin, Canjie, Wu, Wei, Chen, Yuquan, Sun, Liangting, Zhao, Hongwei. Mechanical Responses of a Combined Support Structure for a Nb 3 Sn Sextupole Magnet During Assembly and Thermal Cycle. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY[J]. 2020, 30(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000522346400001.
[17] Fang, X, Sun, L T, Yuan, Y J, Yang, Y, Qian, C, Cao, Y, Zhang, X Z, Chen, R F, Wu, J X, Li, X X, Wang, H, Lu, W, Zhao, H W, IOP. Development of a Pepper Pot probe to measure the Four-dimensional emittance of low energy beam of electron cyclotron resonance ion source at IMP. HEAVY ION ACCELERATOR TECHNOLOGY 2018null. 2020, 1401: [18] 陈章诺, 郭玉辉, 詹泰鑫, 程艺, 孙良亭. 新型LEAF装置控制软件设计. 核电子学与探测技术. 2020, 40(1): 60-64, http://lib.cqvip.com/Qikan/Article/Detail?id=7102766901.
[19] Zhao, Hongwei, Sun, Liangting. Overview and summary of the 18th International Conference on Ion Sources, Lanzhou, China, 2019. REVIEW OF SCIENTIFIC INSTRUMENTSnull. 2020, 91(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000524576700001.
[20] Wei Ma, Liang Lu, LiePeng Sun, Yao Yang, LiangTing Sun, XianBo Xu, LongBo Shi, ChaoChao Xing, Lei Yang, Tao He, YuHui Guo, YuHan Zhai, WeiPin Dou, Peng Zhang, ZhiJun Wang, Yuan He, AiMin Shi, Bo Zhao, XiaoFeng Jin, Bin Zhang, HongWei Zhao. Development and beam commissioning of a continuous-wave four-vane heavy ion radio-frequency quadrupole accelerator based on stable operation. Nuclear Inst. and Methods in Physics Research, A. 2020, 949: http://dx.doi.org/10.1016/j.nima.2019.162824.
[21] 詹泰鑫, 郭玉辉, 陈章诺, 刘禹廷, 刘海涛, 李运杰, 程艺, 孙良亭. 39Ar同位素预富集装置控制系统设计. 核电子学与探测技术. 2020, 40(1): 65-70, http://lib.cqvip.com/Qikan/Article/Detail?id=7102766902.
[22] Sun, L, Zhao, H W, Lu, W, Guo, J W, Li, L X, Shen, Z, Li, L B, Huang, W, Zhang, X Z, Ma, H Y, Yang, Y, Li, J Q, Cao, Y, Zhang, W H, Fang, X, Ma, Y M, Feng, Y C, Wu, B M, Wu, W, Ma, L Z, IOP. Highly charged ECR ion source development at IMP. HEAVY ION ACCELERATOR TECHNOLOGY 2018null. 2020, 1401: [23] 孙良亭. Intense carbon beams production with an all permanent manget electron cyclotron resonance ion source for heavy ion medical machine. Rev. Sci. Instrum.. 2020, [24] Yang, Y, Zhai, Y H, Jiang, P Y, Sun, L T, Lu, L, Jia, H, Dou, W P, Fang, X, Jing, L, Wei, Y, Ma, W, Sun, L P, Lu, W, Guo, Y H, Liu, X J, Zhao, H W, IOP. Commissioning progress of LEAF at IMP. HEAVY ION ACCELERATOR TECHNOLOGY 2018null. 2020, 1401: [25] Qian, C, Sun, L T, Jia, Z H, Li, L B, Ma, Y M, Fang, X, Guo, J W, Wang, H, Lu, W, Zhang, X Z, Zhao, H W. A new room temperature LECR5 ion source for the SESRI project. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2020, 91(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000518012800002.
[26] Ma, Wei, Lu, Liang, Sun, LiePeng, Yang, Yao, Sun, LiangTing, Xu, XianBo, Shi, LongBo, Xing, ChaoChao, Yang, Lei, He, Tao, Guo, YuHui, Zhai, YuHan, Dou, WeiPin, Zhang, Peng, Wang, ZhiJun, He, Yuan, Shi, AiMin, Zhao, Bo, Jin, XiaoFeng, Zhang, Bin, Zhao, HongWei. Development and beam commissioning of a continuous-wave four-vane heavy ion radio-frequency quadrupole accelerator based on stable operation. NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT[J]. 2020, 949: http://dx.doi.org/10.1016/j.nima.2019.162824.
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[80] 孙良亭, 曹云, 冯玉成, 李锦钰, 赵红卫, 张子民, 王辉, 马宝华, 何伟, 赵环昱, 郭晓虹. ECR离子源束流发射度的实验研究. 高能物理与核物理[J]. 2005, 29(12): 1179-1184, http://lib.cqvip.com/Qikan/Article/Detail?id=20742629.
[81] 何伟, 李锦钰, 赵环昱, 曹云, 孙良亭, 赵红卫, 张子民. 强流高电荷态Pb离子束的产生与优化研究. 高能物理与核物理. 2005, 29(9): 907-911, http://lib.cqvip.com/Qikan/Article/Detail?id=20108213.
[82] 孙良亭, 曹云, 赵红卫, 张子民, 冯玉成, 李锦钰. ECR离子源束流引出与传输的研究(英文). 高能物理与核物理[J]. 2005, 2005(8): 810-817, http://ir.impcas.ac.cn/handle/113462/3415.
[83] 何伟, 李锦钰, 赵环昱, 曹云, 孙良亭, 赵红卫, 张子民. 强流高电荷态Pb离子束的产生与优化研究(英文). 高能物理与核物理[J]. 2005, 2005(9): 907-911, http://ir.impcas.ac.cn/handle/113462/3377.
[84] 孙良亭, 马雷, 曹云, 赵红卫, 马保华, 张雪珍, 张子民. 高电荷态金属离子的产生实验研究. 强激光与粒子束. 2004, 16(4): 531-534, http://lib.cqvip.com/Qikan/Article/Detail?id=9460170.
[85] 孙良亭. 高电荷态ECR离子源的设计与实验研究. 2004, 200-, http://ir.impcas.ac.cn/handle/113462/6564.
[86] 孙良亭. 高电荷太ECR高子源的设计与实验研究. 2004, [87] 孙良亭. 高电荷态ECR离子源的设计与实验研究. 2004, 200-, http://ir.impcas.ac.cn/handle/113462/6564.
[88] 曹云, 马雷, 赵红卫, 张子民, 孙良亭, 李锦钰, 冯玉成, 李锡霞. 电偏转扫描法测量高电荷态ECR源发射度. 高能物理与核物理. 2004, 28(8): 885-888, http://lib.cqvip.com/Qikan/Article/Detail?id=10255036.
[89] 张子民, 赵红卫, 张雪珍, 郭晓虹, 李锡霞, 李锦玉, 冯玉成, 王辉, 马保华, 高级元, 曹云, 孙良亭, 马雷. 高电荷态ECR离子源——LECR3. 高能物理与核物理. 2003, 27(10): 914-918, http://lib.cqvip.com/Qikan/Article/Detail?id=8507699.
[90] 孙良亭, 张子民, 赵红卫, 张雪珍, 郭晓虹, 曹云. 双频加热的LECR3离子源设计及初步的调试. 核技术. 2002, 25(9): 674-678, http://lib.cqvip.com/Qikan/Article/Detail?id=6812165.

科研活动

科研项目

  1. 国家发改委,国家重大科技基础设施项目,强流重离子加速器装置(HIAF),2018.12至2025.12,16.2148亿元,在研,项目副总工;

  2. 中国科学院,重大科技基础设施维修改造项目,超导ECR离子源改造,2019-012020-12911万元,在研,主持;

  3. 中国科学院,前沿科学重点研究项目,强流高电荷态重离子束流的关键技术研究,2016-082021-07250万元,在研,主持;

  4. 科技部,国家重点研发计划,39Ar同位素的预富集(原子阱单原子灵敏检测项目-课题二),2016-082021-07315万元,在研,主持;

  5. 国家自然科学基金委,国家重大科研仪器研制项目,低能量强流高电荷态重离子研究装置,2015-012019-127977万元,在研,参加;

  6. 科技部,“973”国家重点基础研究发展计划,强流高功率离子加速器物理及技术先导研究,2014-012018-082600万元,已结题,参加;

  7. 国家自然科学基金委,面上项目,微波加热模式对ECR离子源等离子体以及高电荷态离子产生影响的研究,2014-012017-1296万元,已结题,主持;

  8. 国家自然科学基金委,创新研究群体科学基金,重离子加速器物理和技术前沿课题研究,2013-012015-12600万元,已结题,参加;

  9. 横向项目,治癌专用装置全永磁ECR离子源LAPECR3研制,2012-012014-06600万元,已结题,主持;

  10. 国家自然科学基金委,重大研究计划,ADS高稳定度高可靠性强流质子源及其低能束流传输线研究,2012-012015-12500万元,已结题,参加;

  11. 中国科学院,大科学装置维修项目、HIRFL备用超导ECR离子源研制、2012-012015-091500万元,已结题,主持。

参与会议

  1. “Moving the frontiers of the production of intense beams of highly charged ions with ECR ion sources”, 22nd International Conference on Cyclotrons and their Applications (CYC2019), Cape Town, South Africa 22 – 27 September, 2019 (invited). *

  2. “Low Energy Heavy Ion Accelerator Facilities in IMP for Material Irradiation Research”, 21st International Conference on Surface Modification of Materials by Ion Beams (SMMIB-2019), Tomsk, Russia, on August 25-30, 2019 (Plenary). *

  3. “Overview of high intensity ion source development in past 20 years at IMP”, 18th International Conference on Ion Sources (ICIS’19), Lanzhou, China on September 1-6, 2019 (invited). *

  4. “Perspectives in High Intensity Heavy Ion Sources for Future Heavy Ion Accelerators”, 9th International Particle Accelerator Conference (IPAC’18), Vancouver, CA, April 29~May 4, 2018 (invited).*

  5. “Review of Highly Charged Ion Production with ECR Ion Source and the Future Opportunities for HCI Physics”, 19th International Conference on the Physics of Highly Charged Ions (HCI’18), Lisboa, Portugal, Sept. 3~7, 2018 (invited).*

  6. “Highly Charged ECR Ion Source Development at IMP”, 14th International Conference of Heavy Ion Accelerator Technologies, Lanzhou, China, Oct. 22~26, 2018 (invited).*

  7. “High Power Operation with SECRAL-II Ion Source”, 23rd International Workshop on ECR ion Sources (ECRIS’18), Catania, Italy, Sept. 10~14, 2018.

  8. “下一代强流高电荷态超导ECR源”, 第三届中国粒子加速器会议(CPAC’2018),中国,东莞,2018年11月6~9日。(invited).

  9. “ECRIS research at IMP and its applications for accelerator physics”, Workshop on Strong Microwaves and Terahertz Waves: Sources and Applications, Nizhny Novgorod, Russia, July 17–22, 2017 (invited).*

  10. “Intense beam production of highly charged ions by the superconducting ECR ion source SECRAL for heavy ion linacs”, LINAC’16, East Lansing, USA, 25-30, Sept., 2016; (Invited).*

  11.   "SECRAL II Ion Source Development and the First Commissioning at 28 GHz", ECRIS’16, Busan, South Korea, August 28-September 1, 2016.

  12. “高性能超导ECR离子源在近物所的研制与发展”,第16届全国荷电离子源粒子束会议,中国宜昌,9月23-27日,2016. (Invited).

  13. “Challenges for the Next Generation ECRIS”, 13th International Conference of Heavy Ion Accelerator Technologies (HIAT'15), Yokohama, Japan, 7-11, Sept., 2015; (Invited)*

  14. “Advancement of HCI Beam Production by SCECRIS: SECRAL”, 16th International Conference on Ion Sources (ICIS‘15), New York, USA, 23-28, Aug., 2015; (Invited)*

  15. “ECRIS Developments Towards Intense High Brightness Highly-charged Ion Beams”, HB2014, Michigan State University, USA, 10-14, Nov., 2014;

  16. “Status Report of SECRAL II Ion Source Development”, 21st International Workshop on ECR ion Sources (ECRIS’14), Nizhny Novgorod, Russia, 24-28, Aug., 2014;

  17. “Highly Charged Ion Source Development at IMP”, EIC2014, J-Lab, Newport News, USA, 17-21 Mar., 2014; (Invited)*

  18.   "High Intensity Operation for Heavy Ion Cyclotron of Highly Charged ECR Ion Sources”, Cyclotron’13, Vancouver, Canada, 16-20 Sept., 2013; (Invited)*

  19. “Progress of Superconducting ECR Ion Sources at IMP”, 15th International Conference on Ion Sources (ICIS‘13), Chiba, Japan, 8-13 Sept., 2013; 

  20. “Intense Beam Ion Sources Development at IMP”, 4th International Particle Accelerator Conference (IPAC’13), Shanghai, China, 12-17 May, 2013; 

  21. “All Permanent Magnet ECR Ion Source Development and Operation Status at IMP”, 20th International Workshop on ECR ion Sources (ECRIS’12), Sydney, Australia, 24-28 Sept., 2012, 

  22. “Intense High Charge State Heavy Ion Beam Production for the Advanced Accelerators”, HB2012, Beijing, China, 17-21 Sept., 2012; (Invited)



合作情况


国内合作单位

北京大学、清华大学、电子科技大学、中国科学与技术大学、兰州大学、复旦大学等

国际合作单位

  • 美国FRIB项目 

  • 美国LBNL实验室 

  • 美国ANL实验室 

  • 美国BNL实验室

  • 日本RIKEN研究中心 

  • 日本NIRS/QST研究中心

  •  俄罗斯JINR研究所 

  • 俄罗斯IAP/RAS研究所 

  • 法国GANIL研究中心 

  • 德国GSI研究中心 

  • 意大利INFN 实验室

  • 芬兰JYNL实验室

  • CERN西欧核子中心

指导学生

已指导学生

方兴  博士研究生  082703-核技术及应用  

郭俊伟  博士研究生  082703-核技术及应用  

现指导学生

黄维  博士研究生  082703-核技术及应用  

梅恩铭  博士研究生  082703-核技术及应用  

钱程  博士研究生  082703-核技术及应用  

刘玉国  博士研究生  082703-核技术及应用  

翟耀杰  博士研究生  082703-核技术及应用  

窦国梁  博士研究生  082703-核技术及应用  

王鑫宇  博士研究生  082701-核能科学与工程  

张胜  博士研究生  082703-核技术及应用  

李家庆  博士研究生  082703-核技术及应用