基本信息

卢旺  男  硕导  中国科学院近代物理研究所
​博士,正高级工程师,离子源室副主任。

主要研究方向为高电荷态ECR离子源、金属高温炉技术。2003年毕业于兰州大学物理学院应用物理专业,2014年毕业于中科院近物所,获工学博士学位。曾获第十一届“希望杯”青年优秀论文二等奖,近物所青年科技人才优秀奖。现承担基金委面上项目,“西部青年学者”A类等项目。

电子邮件: luwang@impcas.ac.cn

通信地址: 甘肃省兰州市南昌路509号

邮政编码:

研究领域

主要研究方向为加速器技术、离子源技术及超导磁体技术。

招生信息

欢迎物理学,核技术及应用,工程热力学等相关专业学生报考。


招生专业
082701-核能科学与工程
082703-核技术及应用
招生方向
加速器技术
离子源技术
超导磁体技术

教育背景

2007-09--2014-02   中国科学院大学   博士学位
1999-09--2003-09   兰州大学   学士学位

工作经历

工作简历
2021-05~现在, 中国科学院近代物理研究所, 正高级工程师
2016-09~2017-09,美国劳伦斯伯克利实验室, 博士后
2015-09~2016-09,美国劳伦斯伯克利实验室, 访问学者
2014-11~2021-05,中国科学院近代物理研究所, 高级工程师
2009-11~2014-11,中国科学院近代物理研究所, 工程师
2004-07~2009-11,中国科学院近代物理研究所, 助理工程师
2003-07~2004-07,中国科学院近代物理研究所, 试用期

专利与奖励

   
奖励信息
(1) 粒子加速器学会第“十一届”希望杯二等奖, 二等奖, 其他, 2014
(2) 近代物理研究所青年科技奖优秀奖, , 研究所(学校), 2011
专利成果
[1] 王兵, 孙良亭, 莫丹, 张金泉, 王贤武, 姚庆高, 吴巍, 马艺准, 杨龙, 吴北民, 卢旺, 杨建成, 胡正国, 徐瑚珊. 一种核孔膜工业生产用的重离子生产装置. CN: CN111292866B, 2022-02-01.

[2] 卢旺, 钱程, 孙良亭, 李立彬, 黄维. ECR离子源金属炉测试装置. CN: CN209910988U, 2020-01-07.

[3] 卢旺, 钱程, 孙良亭, 李立彬, 黄维. ECR离子源感应炉. CN: CN209893934U, 2020-01-03.

[4] 卢旺, 钱程, 孙良亭, 李立彬, 黄维. 一种ECR离子源金属炉测试装置. CN: CN109932200A, 2019-06-25.

[5] 卢旺, 钱程, 孙良亭, 李立彬, 黄维. 一种ECR离子源感应炉. CN: CN109916177A, 2019-06-21.

[6] 谢祖祺, 赵红卫, 卢旺, 张雪珍. 用于产生最小B 磁场的超导混合磁体装置. CN: CN102623128A, 2012-08-01.

[7] 谢祖祺, 赵红卫, 卢旺, 张雪珍. 用于产生最小B磁场的超导混合磁体装置. CN: CN202632926U, 2012-12-26.

[8] 阮琳, 赵红卫, 宋福川, 张雪珍, 顾国彪, 熊斌, 袁佳毅, 谢祖棋, 卢旺, 郭卉, 余顺周, 刘斐辉. 一种ECR离子源的蒸发冷却装置. CN: CN201846521U, 2011-05-25.

出版信息

   
发表论文
[1] Lixuan Li, Jibo Li, Jindou Ma, Guo, H, Guo, B, Hitz, D, Feng, Y C, Lu, W. Production of intense pulsed beams of highly charged ions from a superconducting electron cyclotron resonance ion source. Physical Review Accelerators and Beams[J]. 2022, [2] Sun, L T, Lu, W, Zhao, H W, Guo, J W, Wu, W, Wu, B M. Progress on the development of key technologies for the fourth generation ECR ion source FECR. Journal of Physics: Conference Series[J]. 2022, [3] Qian, C, Sun, L T, Lu, W, Z.H. Jia, Yang, T J, Zhu, L. High Performance 18 GHz ECR Ion Sources Development. Journal of Physics: Conference Series[J]. 2022, [4] Lu, W, Qian, C, Zhang, W H, Ma, H Y, Ma, J D, Feng, Y C, Li, L B, Li, L X, Guo, J W, Huang, W, Zhang, X Z, Sun, L T, Zhao, H W. Production of metallic ion beams by electron cyclotron resonance ion sources equipped with inductive heating ovens at the Institute of Modern Physics. REVIEWOFSCIENTIFICINSTRUMENTS[J]. 2021, 92(3): https://www.webofscience.com/wos/woscc/full-record/WOS:000630506400002.
[5] Guo, J W, Sun, L, Lu, W, Zhang, W H, Feng, Y C, Shen, Z, Li, L X, Li, J B, Zhang, X Z, Hitz, D, Zhao, H W. A new microwave coupling scheme for high intensity highly charged ion beam production by high power 24-28 GHz SECRAL ion source. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2020, 91(1): [6] 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: [7] 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: [8] Li Jibo, Li, L X, Bhaskar, B S, Toivanen, V, Tarvainen, O, Hitz, D, Li, L B, Lu, W, Koivisto, H, Thuillier, T, Guo, J W, Zhang, X Z, Zhao, H Y, Sun, L T, Zhao, H W. Effects of magnetic configuration on hot electrons in a minimum-B ECR plasma. PLASMA PHYSICS AND CONTROLLED FUSION[J]. 2020, 62(9): http://dx.doi.org/10.1088/1361-6587/ab9d8f.
[9] 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. IOP Publishing[J]. 2020, 1401: [10] Fang, X, Sun, L T, Yuan, Y J, Qian, C, Yang, Y, Lu, W, Zhao, H W. Emittance study of the high intensity highly charged heavy ion beams extracted from electron cyclotron resonance ion source. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2020, 91(1): https://www.webofscience.com/wos/woscc/full-record/WOS:000515500200003.
[11] 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: [12] Li Jibo, Li, L X, Li, L B, Guo, J W, Hitz, D, Lu, W, Feng, Y C, Zhang, W H, Zhang, X Z, Zhao, H Y, Sun, L T, Zhao, H W. Influence of electron cyclotron resonance ion source parameters on high energy electrons. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2020, 91(8): https://www.webofscience.com/wos/woscc/full-record/WOS:000563500100001.
[13] 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.
[14] 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[J]. 2020, 49(1): 47-53, https://www.webofscience.com/wos/woscc/full-record/WOS:000619145300010.
[15] 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[J]. 2019, 90(11): https://www.webofscience.com/wos/woscc/full-record/WOS:000504097900023.
[16] 卢旺. 近代物理研究所采用感应加热炉产生强流铀束. Review of Scientific Instruments. 2019, [17] 卢旺. 铌钛磁铁MARS失超保护概念性设计. AIP Conference Proceedings. 2018, [18] Xiong Bin, Ruan Lin, Gu Guobiao, Lu Wang, Qian Cheng, Zhang Xuezheng, Lettry J, Mahner E, Marsh B, Pardo R, Scrivens R. The Optimization of Evaporative Cooling Magnet for LECR4 Ion Source. PROCEEDINGS OF THE 17TH INTERNATIONAL CONFERENCE ON ION SOURCESnull. 2018, 2011: [19] 卢旺. 45 GHz ECR离子源Nb3Sn超导磁体系统机械设计. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY. 2018, [20] 黄维, 钱程, 孙良亭, 张雪珍, 曹云, 卢旺, 冯玉成, 郭俊伟, 方兴, 李锡霞, 赵红卫. 高电荷态电子回旋共振离子源难熔金属高温炉研制. 核技术[J]. 2018, 41(7): 070501-1, http://lib.cqvip.com/Qikan/Article/Detail?id=675558102.
[21] Sun, Liangting, Lu, Wang, Mei, Enming, Sabbi, GianLuca, Wu, Wei, Xie, Daniel, Zhao, Hongwei. Superconducting Magnets for High Performance ECR Ion Sources. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY[J]. 2018, 28(3): https://www.webofscience.com/wos/woscc/full-record/WOS:000427462400001.
[22] 卢旺. 高性能ECR离子源所用超导磁铁. IEEE Transactions on Applied Superconductivity. 2018, [23] 卢旺. 一台超导ECR离子源的强流高电荷态离子束产生与运行. PHYSICAL REVIEW ACCELERATORS AND BEAMS. 2017, [24] Zhao, H W, Sun, L T, Guo, J W, Lu, W, Xie, D Z, Hitz, D, Zhang, X Z, Yang, Y. Intense highly charged ion beam production and operation with a superconducting electron cyclotron resonance ion source. PHYSICAL REVIEW ACCELERATORS AND BEAMS[J]. 2017, 20(9): https://doaj.org/article/62d45a6d00484ecfa14459067d897643.
[25] 唐城, 钱程, 孙良亭, 张雪珍, 张子民, 李中平, 赵环昱, 卢旺, 赵红卫. ECR离子源外电子注入技术研究. 原子核物理评论[J]. 2017, 34(2): 164-169, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=6019334&detailType=1.
[26] Sun, L, Guo, J W, Lu, W, Zhang, W H, Feng, Y C, Yang, Y, Qian, C, Fang, X, Ma, H Y, Zhang, X Z, Zhao, H W. Advancement of highly charged ion beam production by superconducting ECR ion source SECRAL. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2016, 87(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000371740900018.
[27] Yin, X J, Yuan, Y J, Xia, J W, He, Y, Zhao, H W, Zhang, X H, Du, H, Li, Z S, Li, X N, Jiang, P Y, Yang, Y Q, Ma, L Z, Wu, J X, Xu, Z, Sun, L T, Zhang, W, Zhang, X Z, Meng, J, Zhou, Z Z, Yao, Q G, Cai, G Z, Lu, W, Wang, H N, Chen, W J, Zhang, Y, Xu, X W, Xie, W J, Lu, Y R, Zhu, K, Liu, G, Yan, X Q, Gao, S L, Wang, Z, Chen, J E. Design, fabrication, and beam commissioning of a continuous-wave four-rod rf quadrupole. PHYSICAL REVIEW ACCELERATORS AND BEAMS[J]. 2016, 19(1): https://doaj.org/article/ba301cc95ef74719978e0eddd95f576d.
[28] Lu, W, Qian, C, Sun, L T, Zhang, X Z, Fang, X, Gu, J W, Yang, Y, Feng, Y C, Ma, B H, Xiong, B, Ruan, L, Zhao, H W, Zhan, W L, Xie, D. High intensity high charge state ion beam production with an evaporative cooling magnet ECRIS. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2016, 87(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000371740900049.
[29] 熊斌, 阮琳, 顾国彪, 郭书琴, 曹瑞, 李振国, 卢旺, 张雪珍, 赵红卫, 孙良亭. 高功率密度蒸发冷却ECR离子源磁体线圈研制. 电机与控制学报[J]. 2016, 20(1): 22-28, http://lib.cqvip.com/Qikan/Article/Detail?id=667693588.
[30] Guo, J W, Sun, L, Niu, X J, Zhang, X Z, Lu, W, Zhang, W H, Feng, Y C, Zhao, H W. 24 GHz microwave mode converter optimized for superconducting ECR ion source SECRAL. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2016, 87(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000371740900019.
[31] Xiong, B, Ruan, L, Gu, G B, Lu, W, Zhang, X Z, Zhan, W L. The characteristic of evaporative cooling magnet for ECRIS. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2016, 87(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000371740900030.
[32] 卢旺. 近代物理研究所采用蒸发冷却技术的ECR离子源进展. REVIEW OF SCIENTIFIC INSTRUMENTS. 2015, [33] 熊斌, 阮琳, 顾国彪, 卢旺, 张雪珍. 蒸发冷却技术在高电荷态ECR离子源磁体上的应用——LECR4. 电工技术学报[J]. 2015, 219-225, http://lib.cqvip.com/Qikan/Article/Detail?id=68717483504849534948485148.
[34] 卢旺. 采用蒸发冷却ECR离子源产生强流高电荷态离子束. Review of Scientific Instruments. 2015, [35] Lu, W, Sun, L T, Qian, C, Guo, J W, Fang, X, Feng, Y C, Yang, Y, Ma, H Y, Zhang, X Z, Ma, B H, Xiong, B, Guo, S Q, Ruan, L, Zhao, H W. The development of a room temperature electron cyclotron resonance ion source (Lanzhou electron cyclotron resonance ion source No. 4) with evaporative cooling technology at Institute of Modern Physics. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2015, 86(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000353837700016.
[36] Yang Yao, Yuan YouJin, Feng YuChen, Sun LiangTing, Fang Xing, Lu Wang, Zhang WenHui, Cao Yun, Zhang XueZhen, Zhao HongWei. Transmission efficiency improvement of the injector line of SFC by particle beam decorrelation. NUCLEAR SCIENCE AND TECHNIQUES[J]. 2015, 26(6): https://www.webofscience.com/wos/woscc/full-record/WOS:000368964600006.
[37] Lu, W, Li, J Y, Kang, L, Liu, H P, Li, H, Li, J D, Sun, L T, Ma, X W. Operation of Lanzhou all permanent electron cyclotron resonance ion source No. 2 on 320 kV platform with highly charged ions. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2014, 85(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000335919900103.
[38] Yang, Y, Sun, L T, Feng, Y C, Fang, X, Lu, W, Zhang, W H, Cao, Y, Zhang, X Z, Zhao, H W. Studies on a Q/A selector for the SECRAL electron cyclotron resonance ion source. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2014, 85(8): https://www.webofscience.com/wos/woscc/full-record/WOS:000342913500018.
[39] Xiong, B, Ruan, L, Gu, G B, Guo, S Q, Cao, R, Li, Z G, Lu, W, Zhang, X Z, Sun, L T, Zhao, H W. Application of evaporative cooling technology in super-high power density magnet. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2014, 85(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000335919900069.
[40] Sun, L, Lu, W, Feng, Y C, Zhang, W H, Zhang, X Z, Cao, Y, Zhao, Y Y, Wu, W, Yang, T J, Zhao, B, Zhao, H W, Ma, L Z, Xia, J W, Xie, D. Progress of superconducting electron cyclotron resonance ion sources at Institute of Modern Physics (IMP). REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2014, 85(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000335919900098.
[41] Yang, Y, Yuan, Y J, Sun, L T, Feng, Y C, Fang, X, Cao, Y, Lu, W, Zhang, X Z, Zhao, H W. Transverse coupling property of beam from ECR ion sources. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2014, 85(11): https://www.webofscience.com/wos/woscc/full-record/WOS:000345646000257.
[42] 周文雄, 王彦瑜, 周德泰, 宿建军, 卢旺, 冯玉成. SECRAL超导磁铁电源控制. 原子核物理评论[J]. 2014, 489-493, http://lib.cqvip.com/Qikan/Article/Detail?id=72876884504849524852484857.
[43] Lu, W, Xiong, B, Zhang, X Z, Sun, L T, Feng, Y C, Ma, B H, Guo, S Q, Cao, R, Ruan, L, Zhao, H W. Progress of a room temperature electron cyclotron resonance ion source using evaporative cooling technology at Institute of Modern Physics. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2014, 85(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000335919900082.
[44] Zhou, WenXiong, Wang, YanYu, Zhou, DeTai, Lin, FuYuan, Luo, JinFu, Yu, YanJuan, Feng, YuCheng, Lu, Wang. Design of a control system for the LECR3. NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT[J]. 2013, 728: 112-116, https://www.webofscience.com/wos/woscc/full-record/WOS:000324386600018.
[45] Cao, Y, Lu, W, Zhang, W H, Sha, S, Yang, Y, Ma, B H, Wang, H, Zhu, Y H, Guo, J W, Fang, X, Lin, S H, Li, X X, Feng, Y C, Li, J Y, Zhao, H Y, Ma, H Y, Zhang, X Z, Guo, X H, Wu, Q, Sun, L T, Zhao, H W, Xie, D Z. Study of ion beam transport from the SECRAL electron cyclotron resonance ion source at the Institute of Modern Physics. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2012, 83(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000301636100186.
[46] Zhang, W H, Ma, H Y, Yang, Y, Wu, Q, Zhang, X Z, Wang, H, Ma, B H, Feng, Y C, Fang, X, Guo, J W, Cao, Y, Li, X X, Zhu, Y H, Li, J Y, Sha, S, Lu, W, Lin, S H, Guo, X H, Zhao, H Y, Sun, L T, Xie, D Z, Peng, S X, Liu, Z W, Zhao, H W. A 2.45 GHz electron cyclotron resonance proton ion source and a dual-lens low energy beam transport. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2012, 83(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000301636100031.
[47] Lu, W, Xie, D Z, Zhang, X Z, Xiong, B, Ruan, L, Sha, S, Zhang, W H, Cao, Y, Lin, S H, Guo, J W, Fang, X, Guo, X H, Li, X X, Ma, H Y, Yang, Y, Wu, Q, Zhao, H Y, Ma, B H, Wang, H, Zhu, Y H, Fang, Y C, Li, J Y, Li, J Q, Sun, L T, Zhao, H W. Development of DRAGON electron cyclotron resonance ion source at Institute of Modern Physics. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2012, 83(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000301636100030.
[48] Zhao, H W, Lu, W, Zhang, X Z, Feng, Y C, Guo, J W, Cao, Y, Li, J Y, Guo, X H, Sha, S, Sun, L T, Xie, D Z. Performance and operation of advanced superconducting electron cyclotron resonance ion source SECRAL at 24 GHz. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2012, 83(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000301636100022.
[49] Zhou Wenxiong, Wang Yanyu, Zhou Detai, Zhang Jianchuan, Lin Fuyuan, Feng Yucheng, Lu Wang. The Control Software Design for SECRAL System. NUCLEAR PHYSICS REVIEW[J]. 2012, 29(4): 364-370, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=4731509&detailType=1.
[50] Sha, S, Zhao, H W, Guo, X H, Zhang, Z L, Fang, X, Guo, J W, Zhang, W H, Lu, W, Cao, Y, Ma, H Y, Lin, S H, Li, X X, Ma, B H, Yang, Y, Wang, H, Wu, Q, Li, J Y, Feng, Y C, Zhao, H Y, Zhu, Y H, Sun, L T, Zhang, X Z, Chen, X M, Xie, D Z. Status of the laser ion source at IMP. REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2012, 83(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000301636100137.
[51] Zhao, H W, Sun, L T, Lu, W, Zhang, X Z, Guo, X H, Cao, Y, Zhao, H Y, Feng, Y C, Li, J Y, Ma, H Y, Shang, Y, Ma, B H, Wang, H, Li, X X, Xie, D Z. New development of advanced superconducting electron cyclotron resonance ion source SECRAL (invited). REVIEW OF SCIENTIFIC INSTRUMENTS[J]. 2010, 81(2): http://ir.impcas.ac.cn/handle/113462/8193.
[52] Zhao, H Y, Zhao, H W, Sun, L T, Wang, H, Xie, D Z, Ma, B H, Zhang, X Zh, Li, X X, Ma, X W, Zhu, Y H, Lu, W, Shang, Y. Effects of magnetic configuration on hot electrons in highly charged ECR plasma. PLASMA SOURCES SCIENCE & TECHNOLOGY[J]. 2009, 18(2): http://ir.impcas.ac.cn/handle/113462/246.
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科研活动

   
科研项目
( 1 ) 用于ECR源产生难熔金属离子束的感应高温炉研制, 主持, 国家级, 2019-01--2022-12
( 2 ) “西部之光”青年研究学者A类, 主持, 部委级, 2020-01--2022-12
( 3 ) 用于超重核研究的强流高电荷态离子束高效产生的模拟及实验研究, 主持, 国家级, 2020-07--2022-06
参与会议
(1)Production of intense uranium beams with inductive heating oven at Institute of Modern Physics   第18届国际离子源会议   2019-09-01
(2)Inductive oven development for intense metallic ion beam production in ECR ion source at IMP   第10届国际离子加速器会议   2019-05-19
(3)High temperature oven development for intense metal beam production at IMP    第23届国际ECR离子源会议   2018-09-10