基本信息
何源 男 博导 中国科学院近代物理研究所
电子邮件: hey@impcas.ac.cn
通信地址: 兰州市南昌路509号
邮政编码: 730000
电子邮件: hey@impcas.ac.cn
通信地址: 兰州市南昌路509号
邮政编码: 730000
研究领域
1. 核技术及应用
常温和超导直线加速器及其应用技术的研究。相关项目如下:
1)用于核废料嬗变的超导直线加速器,加速粒子:质子,能量:500MeV,流强:5mA,是国家重大科技基础设施——加速器嬗变研究装置(CiADS)的驱动器;
2)用于同步加速器的直线注入器,加速粒子:P-U,能量:17MeV/u;流强:2emA,是国家重大科技基础设施——强流重离子加速器(HIAF)的注入器;
3)用于癌症治疗装置的小型直线加速器
4)用于中子照相的小型直线加速器
5)虚拟加速器及仿真技术
2. 核能科学与工程
加速器嬗变研究装置(CiADS)总工程师,从事加速器驱动的先进核裂变能研究。如:数字化ADS仿真与模拟。
招生信息
招生专业
082701-核能科学与工程070202-粒子物理与原子核物理
招生方向
核能装置模拟仿真、先进核能关键技术核能与核工程技术加速器物理
教育背景
2000-09--2003-06 中国科学院研究生院 工学博士1995-09--1999-06 中国科学院近代物理研究所 工学硕士1991-09--1995-06 兰州大学物理系 理学学士
工作经历
工作简历
2019-07~现在, 中国科学院近代物理研究所, 直线加速器中心主任,兼直线加速器总体室主任2015-11~现在, 中国科学院近代物理研究所, 中科院特聘核心骨干研究员2010-12~2019-06,中国科学院近代物理研究所, 直线加速器中心常务副主任,直线加速器室主任2010-10~2010-11,美国密歇根州立大学(MSU)超导回旋国家实验室(NSCL), 高级访问学者2010-02~2010-12,中国科学院近代物理研究所, 磁场技术室副主任2010-01~2010-02,日本理化学研究所(RIKEN), 高级访问学者2009-11~2009-12,德国法兰克福大学, 高级访问学者2009-02~现在, 中国科学院近代物理研究所, 研究员2008-08~2008-10,日本理化学研究所(RIKEN), 高级访问学者2006-01~2006-07,德国重离子研究中心(GSI), 高级访问学者2003-12~2009-01,中国科学院近代物理研究所, 高级工程师2001-07~2001-10,德国重离子研究中心(GSI), 博士后访问学者2000-04~2003-11,中国科学院近代物理研究所, 工程师1995-06~2000-04,中国科学院近代物理研究所, 助理工程师
社会兼职
2021-01-01-今,中国科学技术大学, 兼职教授
2020-10-01-今,中国核学会粒子加速器分会理事会, 理事
2020-09-04-今,四川大学, 客座研究员
2015-09-29-2017-07-14,第18届国际射频超导会议(SRF2017), 主席
2015-07-14-今,经合组织核能局加速器驱动系统技术与部件会议(TCADS), 科学顾问委员会成员
2015-06-30-今,重离子加速器技术国际会议(HIAT), 国际顾问委员会成员
2013-07-18-今,国际射频超导技术合作组织(TTC), 成员
2020-10-01-今,中国核学会粒子加速器分会理事会, 理事
2020-09-04-今,四川大学, 客座研究员
2015-09-29-2017-07-14,第18届国际射频超导会议(SRF2017), 主席
2015-07-14-今,经合组织核能局加速器驱动系统技术与部件会议(TCADS), 科学顾问委员会成员
2015-06-30-今,重离子加速器技术国际会议(HIAT), 国际顾问委员会成员
2013-07-18-今,国际射频超导技术合作组织(TTC), 成员
专利与奖励
奖励信息
(1) 甘肃省科技进步奖一等奖, 一等奖, 省级, 2022(2) 甘肃省领军人才第一层次人选, 省级, 2019(3) 国务院政府特殊津贴, 国家级, 2019(4) 国家“万人计划”科技领军人才, 部委级, 2018(5) 创新人才推进计划中青年科技创新领军人才, 部委级, 2017(6) 胡刚复物理奖, 部委级, 2015(7) 甘肃省五四青年奖章, , 省级, 2013(8) HWR超导腔研制团队突出成果奖, , 研究所(学校), 2013(9) 甘肃省科学技术进步奖, 三等奖, 省级, 2013(10) 重离子加速器冷却储存环(HIRFL-CSR)工程研究集体, , 院级, 2009
专利成果
[1] 徐孟鑫, 黄玉璐, 张升学, 何源, 刘鲁北, 蒋天才, 王若旭, 刘通, 李春龙. 低纯铌-高纯铌混合制备超导腔. CN215773681U, 2022-02-08.[2] 何源, 牛海华, 袁辰彰, 贾欢, 蔡汉杰, 张勋超, 王锋锋, 张斌. 用于高功率粒子加速器的束流收集器. CN113556859A, 2021-10-26.[3] 初青伟, 郭浩, 熊平然, 宋玉堃, 谭腾, 何源. 一种无氧铜钎焊前的表面处理方法. CN: CN113235100A, 2021-08-10.[4] 初青伟, 郭浩, 熊平然, 宋玉堃, 谭腾, 何源. 一种射频四级场加速腔体的表面处理方法. CN: CN113215579A, 2021-08-06.[5] 曾凡剑, 黄贵荣, 孙列鹏, 施龙波, 金珂安, 何源. 一种微波功率测量装置及方法. CN: CN113203892A, 2021-08-03.[6] 曾凡剑, 黄贵荣, 孙列鹏, 施龙波, 金珂安, 何源. 一种提高定向耦合器方向性的方法和装置. CN: CN113193325A, 2021-07-30.[7] 杨自钦, 何源, 鲁向阳. 一种确定超导腔最佳氮掺杂工艺的方法. CN: CN113174559A, 2021-07-27.[8] 何源, 曾凡剑, 孙列鹏, 施龙波, 金珂安, 黄贵荣. 一种射频功率测量装置及方法. CN: CN113156199A, 2021-07-23.[9] 王若旭, 张周礼, 何源. 一种陶瓷窗可拆卸型高功率输入耦合器. CN: CN113113749A, 2021-07-13.[10] 王若旭, 郭浩, 黄玉璐, 谭腾, 何源. 一种真空密封用不锈钢法兰. CN: CN212745434U, 2021-03-19.[11] 林泽强, 蒋天才, 何源, 杨自钦. 一种用于偏压的电阻滤波结构. CN: CN212413127U, 2021-01-26.[12] 王志军, 宋健, 王若旭, 岳伟明, 舒滢, 何源, 郭学鹏, 任军帅. 一种射频超导腔用高纯铌管多次拉伸成型的制造方法. CN: CN111957761A, 2020-11-20.[13] 吕文泉, 何源, 王志光, 刘杰. 一种散裂靶靶球表面金属等离子体浸没离子注入与沉积复合强化处理方法. CN108977759B, 2020-10-02.[14] 何源, 熊平然, 郭浩, 张生虎, 游志明, 吴建强. 一种清洗超导腔的装置及清洗方法. CN: CN111203410A, 2020-05-29.[15] 林泽强, 蒋天才, 吴安东, 何源. 一种高功率输入耦合器的驻波谐振老练装置及方法. CN: CN110487328A, 2019-11-22.[16] 蒋天才, 林泽强, 何源. 一种用于加速器射频谐振腔高功率输入耦合器的偏压结构. CN: CN110493947A, 2019-11-22.[17] 何源, 游志明, 郑海, 郭浩, 熊平然, 王旺生, 李璐, 张生虎. 一种小间隙超导腔内表面高压冲洗设备. CN: CN110328176A, 2019-10-15.[18] 黄贵荣, 曾凡剑, 孙列鹏, 施龙波, 高郑, 朱正龙, 薛纵横, 何源. 一种矩形腔式功率合成器. CN: CN110289472A, 2019-09-27.[19] 窦为平, 王志军, 何源. 一种射频四极场加速器及其加速方法. CN: CN110267426A, 2019-09-20.[20] 何源, 王志军, 窦为平. 一种同位素生产设备. CN: CN110223796A, 2019-09-10.[21] 王志军, 窦为平, 何源. 一种能量连续可调的直线加速器及其应用. CN: CN110225644A, 2019-09-10.[22] 游志明, 何源, 郭浩, 熊平然, 李璐, 张生虎. 一种超导腔表面化学缓冲抛光全自动酸液配制设备和方法. CN: CN110124545A, 2019-08-16.[23] 王贤武, 何源, 张瑞锋, 冯勇, 孙良亭, 莫丹. 一种最小Q值自激调谐系统及调谐方法. CN: CN110113858A, 2019-08-09.[24] 王若旭, 黄玉璐, 谭腾, 何源. 一种高纯铌管—不锈钢管真空钎焊的制造方法. CN: CN109986160A, 2019-07-09.[25] 游志明, 何源, 熊平然, 郭浩, 李璐, 张生虎. 一种超导腔零部件表面化学缓冲全自动抛光设备. CN: CN109943851A, 2019-06-28.[26] 刘鲁北, 李春龙, 张斌, 何源. 一种用于低温下超导高频腔耦合度调整的机械结构. CN: CN109936908A, 2019-06-25.[27] 于培炎, 张斌, 王锋锋, 李晨星, 王志军, 何源. 一种高频电聚焦离子加速装置的机械结构及其装配方法. CN: CN109819579A, 2019-05-28.[28] 苏艳妮, 郭学鹏, 何源, 吴欢, 岳伟明, 任军帅, 宋健, 郭金明, 闫西安, 田云飞. 一种高纯铌-无氧铜复合板材的爆炸焊接制造方法. CN: CN109604806A, 2019-04-12.[29] 吕文泉, 何源, 王志光, 刘杰. 一种FeNi基激光熔覆掺杂碳化钨/碳化铬复合强化抗高温耐磨涂层及其制备方法. CN: CN109487262A, 2019-03-19.[30] 袁建东, 马力祯, 何源, 张斌, 张雍, 蔡国柱, 王少明, 陈文军, 陆海娇, 孙国珍. 一种引张线仪. CN: CN109282739A, 2019-01-29.[31] 张磊, 张斌, 王锋锋, 王若旭, 朱正龙, 刘鲁北, 高郑, 谭腾, 牛海华, 何源, 黄贵荣. 调谐装置及具有其的超导加速腔. CN: CN109219227A, 2019-01-15.[32] 王锋锋, 袁建东, 孙国珍, 朱铁明, 张斌, 于培炎, 张磊, 张军辉, 何源. 四翼型射频四极场加速器腔体的标定方法. CN: CN108844496A, 2018-11-20.[33] 谢在鹏, 李永明, 何源. 一种高功率微波腔体的光辐射监测系统. CN: CN207923286U, 2018-09-28.[34] 谢在鹏, 李永明, 何源. 一种高功率微波腔体的光辐射监测系统. CN: CN108414082A, 2018-08-17.[35] 谢在鹏, 何源, 王志军. 一种用于离子加速器的束损探测器装置. CN: CN108318909A, 2018-07-24.[36] 谢在鹏, 何源, 王志军. 一种用于离子加速器的束损探测器装置. CN: CN108318909A, 2018-07-24.[37] 李永明, 王若旭, 蒋天才, 何源, 张生虎. 双热窗型的功率输入耦合器. CN: CN108156744A, 2018-06-12.[38] 王若旭, 李永明, 蒋天才, 何源, 张生虎. 功率输入耦合器. CN: CN108156745A, 2018-06-12.[39] 初青伟, 谭腾, 何源, 郭浩, 熊平然, 游志明. 用于去除铜表面铌镀层的化学退镀液和退镀方法. CN: CN108085684A, 2018-05-29.[40] 游志明, 何源, 熊平然, 郭浩, 李璐. 超导腔整腔表面化学缓冲全自动抛光系统. CN: CN207347661U, 2018-05-11.[41] 何源, 王志军. 紧凑型高频电聚焦混合加速腔. CN: CN107896415A, 2018-04-10.[42] 游志明, 何源, 熊平然, 郭浩, 李璐. 超导腔整腔表面化学缓冲全自动抛光系统及方法. CN: CN107699899A, 2018-02-16.[43] 牛海华, 张斌, 袁辰彰, 武启, 王志军, 刘鲁北, 王锋锋, 何源. 加速器运行在线连续可调圆孔限束光阑. 中国: CN105355254B, 2017-12-19.[44] 王锋锋, 张斌, 李晨星, 金晓凤, 赵博, 张周礼, 王志军, 张军辉, 何源, 于培炎. 一种四翼型RFQ加速器腔体冷模测量装置. CN: CN107271812A, 2017-10-20.[45] 何源, 张生虎, 岳伟明, 李永明, 张聪, 蒋天才, 张升学, 王志军. 混合加速聚焦超导腔. CN: CN105722297A, 2016-06-29.[46] 吴北民, 吴巍, 杨通军, 倪东升, 陈玉泉, 梅恩铭, 马力祯, 何源. 一种复合型超导螺线管磁体线圈氦槽. CN: CN105261438A, 2016-01-20.[47] 张周礼, 徐显波, 卢亮, 孙列鹏, 何源, 赵红卫, 石爱民. 一种弯折翼型射频四极加速器. CN: CN204968213U, 2016-01-13.[48] 王志军, 何源, 袁辰彰. 高频电聚焦高梯度离子加速装置. CN: CN103354696B, 2016-01-13.[49] 张周礼, 徐显波, 卢亮, 孙列鹏, 何源, 赵红卫, 石爱民. 一种弯折翼型射频四极加速器. CN: CN105050309A, 2015-11-11.[50] 石健, 夏佳文, 柴伟平, 杨建成, 张小虎, 原有进, 何源. 质子或重离子束治癌装置. CN: CN102793979B, 2015-05-20.[51] 石爱民, 何源, 孙列鹏, 张周礼, 王文斌. 一种射频大功率耦合器. CN: CN204259269U, 2015-04-08.[52] 石爱民, 何源, 孙列鹏, 张周礼, 王文斌. 一种射频大功率耦合器. CN: CN104378906A, 2015-02-25.[53] 王志军, 何源, 刘鲁北. 离子加速器注入装置. CN: CN203827596U, 2014-09-10.[54] 王志军, 何源, 刘鲁北. 离子加速器注入装置及使用方法. CN: CN103906339A, 2014-07-02.[55] 何源, 岳伟明, 何守波, 张生虎. 半波长超导加速腔. CN: CN103716978A, 2014-04-09.[56] 徐孟鑫, 何源, 张生虎, 翟浩银, 武彦红. 适用于两种垫圈的超导腔铌钛法兰装置. CN: CN103702505A, 2014-04-02.[57] 何源, 张生虎, 岳伟明. 一种超导腔的制备方法. CN: CN103619119A, 2014-03-05.[58] 何源, 岳伟明, 张生虎. 超导腔的制备方法. CN: CN103567726A, 2014-02-12.[59] 王志军, 何源, 袁辰彰. 高频电聚焦高梯度离子加速装置. CN: CN103354696A, 2013-10-16.[60] 孙列鹏, 赵红卫, 何源, 金鹏. 螺旋型多间隙高频谐振装置. CN: CN202889765U, 2013-04-17.[61] 孙列鹏, 赵红卫, 何源, 金鹏. 螺旋型多间隙高频谐振装置及聚束和加速方法. CN: CN102917529A, 2013-02-06.[62] 张斌, 何源, 张小奇, 姚庆高, 韩少斐, 李学敏. 高精度三组合四极透镜. CN: CN102208226B, 2013-01-16.[63] 石健, 夏佳文, 柴伟平, 杨建成, 张小虎, 原有进, 何源. 质子或重离子束治癌装置. CN: CN102793979A, 2012-11-28.[64] 张小奇, 张斌, 李学敏, 张军辉, 盛丽娜, 何源, 马力祯, 宋明涛. 真空管道式束流调节器. 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CSRM二极铁磁场分散性的研究. 高能物理与核物理. 2005, 29(5): 491-494, http://lib.cqvip.com/Qikan/Article/Detail?id=15630418.[513] 何源, 张斌, 王玥, 苏雅龙, 张思玲, 刘维军, 韩少斐, 马力祯, 袁平. 冷却储存环主环注入线四极磁铁测量. 强激光与粒子束. 2004, 16(6): 791-794, http://lib.cqvip.com/Qikan/Article/Detail?id=9992729.[514] 何源, 张斌, 王玥, 苏雅龙, 张思玲, 刘维军, 韩少斐, 马力祯, 袁平. 冷却储存环主环注入线四极磁铁测量. 强激光与粒子束. 2004, 16(6): 791-794, http://lib.cqvip.com/Qikan/Article/Detail?id=9992729.[515] 何源, 马力祯, 韩少斐, 王珺, 熊慧, 刘维军, 袁平, 夏佳文. 冷却储存环主环注入线二极磁铁测量. 强激光与粒子束. 2003, 15(10): 1023-1028, http://lib.cqvip.com/Qikan/Article/Detail?id=8323561.[516] 何源, 熊慧, 刘维军, 韩少斐, 袁平, 马力祯, 张斌, 王文进, 王玥, 夏佳文. CSR60°二极C型铁磁场特性的研究. 高能物理与核物理. 2003, 27(6): 532-536, http://lib.cqvip.com/Qikan/Article/Detail?id=7873739.[517] 熊慧, 熊慧, 何源, 袁平, 韩少平, 刘维军. CSR二极磁铁积分磁场测量系统. 原子核物理评论. 2003, 20(1): 34-37, http://lib.cqvip.com/Qikan/Article/Detail?id=7578547.[518] 何源. CSR磁场测量系统的建立及运行. 2003, 175-, http://ir.impcas.ac.cn/handle/113462/6556.[519] 何源. CSR磁场测量系统的建立及应用. 2003, 175-, http://ir.impcas.ac.cn/handle/113462/6556.[520] 何源, 马力祯, 韩少斐, 王珺, 熊慧, 刘维军, 袁平, 夏佳文. 冷却储存环主环注入线二极磁铁测量. 强激光与粒子束. 2003, 15(10): 1023-1028, http://lib.cqvip.com/Qikan/Article/Detail?id=8323561.[521] 何源, 熊慧, 刘维军, 韩少斐, 袁平, 马力祯, 张斌, 王文进, 王玥, 夏佳文. CSR60°二极C型铁磁场特性的研究. 高能物理与核物理. 2003, 27(6): 532-536, http://lib.cqvip.com/Qikan/Article/Detail?id=7873739.[522] 熊慧, 熊慧, 何源, 袁平, 韩少平, 刘维军. CSR二极磁铁积分磁场测量系统. 原子核物理评论. 2003, 20(1): 34-37, http://lib.cqvip.com/Qikan/Article/Detail?id=7578547.[523] 何源. CSR磁场测量系统的建立及运行. 2003, 175-, http://ir.impcas.ac.cn/handle/113462/6556.[524] 何源. CSR磁场测量系统的建立及应用. 2003, 175-, http://ir.impcas.ac.cn/handle/113462/6556.[525] 马力祯, 何源, 王玥, 袁平, 韩少裴, 原有进, 夏佳文. CSR切割磁体设计. 原子能科学技术;Yuanzineng Kexue Jishu/Atomic Energy Science and Technology[J]. 2002, 19: 399-402, http://www.irgrid.ac.cn/handle/1471x/1036229.[526] 马力祯, 何源, 王玥, 袁平, 韩少斐, 原有进, 夏佳文. 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HIRFL—CSR电子冷却装置高精度螺线管线圈制作及磁场测量. 强激光与粒子束. 2001, 13(5): 649-653, http://lib.cqvip.com/Qikan/Article/Detail?id=5459951.
科研活动
科研项目
( 1 ) 注入器II 3~10MeV超导加速器、10~50MeV超导加速器、束流动力学设计、注入器II技术支持, 负责人, 中国科学院计划, 2011-01--2015-12( 2 ) 极低beta超导CH原型腔的物理和实验研究, 负责人, 国家任务, 2011-01--2014-12( 3 ) 高电荷态重离子RFQ加速器的研究, 负责人, 国家任务, 2011-01--2014-12( 4 ) 连续波强流低能离子束的传输与加速, 负责人, 国家任务, 2015-01--2018-12( 5 ) 强流高功率新结构离子直线加速器RFQ研究, 负责人, 国家任务, 2014-01--2018-12( 6 ) 高功率射频超导质子直线加速器, 负责人, 国家任务, 2016-01--2020-12( 7 ) 先进核能装置材料实验项目(区域中心), 负责人, 中国科学院计划, 2016-01--2016-12( 8 ) 超导加速器功率测试系统升级改造, 负责人, 中国科学院计划, 2016-01--2016-12( 9 ) 强流超导离子直线加速器研究, 负责人, 中国科学院计划, 2011-03--2015-03( 10 ) 注入器II机械及技术支持系统, 负责人, 中国科学院计划, 2013-01--2016-12( 11 ) spoke腔研制二, 负责人, 中国科学院计划, 2011-01--2015-12( 12 ) 纯铌超导腔测试, 负责人, 企业委托, 2014-01--2015-12( 13 ) 大科学前沿与交叉研究-3, 负责人, 中国科学院计划, 2011-01--2015-12( 14 ) 超导加速器二, 负责人, 中国科学院计划, 2011-01--2016-12( 15 ) 注入器II动力学设计, 负责人, 中国科学院计划, 2011-01--2016-12( 16 ) 第十八届射频超导国际会议, 负责人, 中国科学院计划, 2017-01--2017-12( 17 ) 低能量强流高电荷态重离子研究装置, 参与, 国家任务, 2015-01--2019-12( 18 ) 强流重离子束流制备研究, 负责人, 中国科学院计划, 2020-01--2024-12( 19 ) 用于超导直线加速器的铌及铌三锡薄膜PECVD制备技术原理研究, 参与, 地方任务, 2020-07--2022-12( 20 ) 核燃料表面处理分析研究平台(区域中心), 负责人, 中国科学院计划, 2021-01--2022-12( 21 ) 直线加速器关键技术研究, 负责人, 国家任务, 2018-01--2020-12( 22 ) 加速器驱动嬗变研究装置(CiADS), 参与, 国家任务, 2021-07--2027-06( 23 ) 强流重离子加速器(HIAF), 参与, 国家任务, 2018-12--2025-12( 24 ) 直线注入器研制, 负责人, 企业委托, 2021-06--2023-12( 25 ) 质子加速器设计及样机测试, 负责人, 企业委托, 2021-01--2024-06
参与会议
(1)Progress of China ADS project and Compact high-flux neutron source Yuan HE 2015-03-18(2)Beam physics and technology challenge for multi-MW CW superconducting proton linac for ADS Yuan HE 2014-11-10(3)Limits for peak fields and gradient in low-beta cavities for high intensity Yuan HE 2014-03-24(4)Chinese Academy of Sciences Institute of Modern Physics Yuan HE 2014-03-17(5)RFQs for Chinese ADS Yuan HE 2014-03-15(6)Challenge and Progress of Superconducting Proton Linac for China ADS Project Yuan HE 2013-12-12(7)SRF Cavities for ADS Project in China Yuan HE 2013-09-23(8)IMP low beta cavities 15 Yuan HE 2013-06-12(9)Status and Upgrade Project of HIRFL Yuan HE 2012-06-18(10)Progress of Chinese Initiative Accelerator Driven System Yuan HE 2011-11-01
指导学生
已指导学生
吴巍 博士研究生 082703-核技术及应用
常玮 博士研究生 082703-核技术及应用
杜小楠 博士研究生 082703-核技术及应用
肖陈 博士研究生 082703-核技术及应用
李伟 硕士研究生 070202-粒子物理与原子核物理
杨玉章 硕士研究生 082703-核技术及应用
窦为平 硕士研究生 082703-核技术及应用
李超 博士研究生 082703-核技术及应用
徐孟鑫 博士研究生 082703-核技术及应用
王志军 博士研究生 082703-核技术及应用
于春蕾 博士研究生 082703-核技术及应用
黄燃 博士研究生 082703-核技术及应用
施龙波 硕士研究生 085226-核能与核技术工程
孔天宁 硕士研究生 082703-核技术及应用
姜子运 博士研究生 082703-核技术及应用
陈伟龙 硕士研究生 085226-核能与核技术工程
高郑 博士研究生 082701-核能科学与工程
蒋天才 硕士研究生 085204-材料工程
岳伟明 博士研究生 070202-粒子物理与原子核物理
李晨星 博士研究生 070202-粒子物理与原子核物理
陈奇 博士研究生 082701-核能科学与工程
贾欢 博士研究生 082703-核技术及应用
贾永智 硕士研究生 085226-核能与核技术工程
陶玥 博士研究生 082701-核能科学与工程
蒋天才 博士研究生 082701-核能科学与工程
秦元帅 博士研究生 082701-核能科学与工程
皇世春 博士研究生 082703-核技术及应用
林泽强 博士研究生 082701-核能科学与工程
陈伟龙 博士研究生 070202-粒子物理与原子核物理
王超 博士研究生 082701-核能科学与工程
潘峰 博士研究生 082701-核能科学与工程
刘鑫萌 博士研究生 082701-核能科学与工程
刘淑会 博士研究生 070202-粒子物理与原子核物理
何涛 博士研究生 082701-核能科学与工程
杨磊 博士研究生 082701-核能科学与工程
现指导学生
金超 博士研究生 082701-核能科学与工程
贾永智 博士研究生 082701-核能科学与工程
冯驰 博士研究生 082701-核能科学与工程
秦伟 博士研究生 082701-核能科学与工程
朱晓冲 博士研究生 082701-核能科学与工程
王嘉铭 硕士研究生 082703-核技术及应用