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  • 清华大学电机系
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    清华大学电机系本科生
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全部教师

付洋洋

清华大学 电机系 副教授、博士生导师、副所长

研究方向

气体放电与低温等离子体、电击穿与绝缘、射频放电、微放电器件及应用

北京市海淀区清华大学西主楼3区427室

fuyangyang@tsinghua.edu.cn

010-62785513

  • 个人介绍
  • 教学情况
  • 科研项目
  • 论著专利
  • 学术兼职

清华大学电机系副教授,博士生导师,高电压与绝缘技术研究所副所长。2010年7月,上海交通大学电气工程系本科毕业;2015年7月,清华大学电机系博士毕业,获评清华大学优秀博士论文一等奖;2015年7月至2016年7月,就职于电力规划设计总院电网工程部;2016年7月至2021年2月在美国密歇根州立大学计算数学科学与工程系从事博士后研究工作。2021年3月到清华大学电机系工作。主要研究方向为气体放电与低温等离子体,包括气体击穿与绝缘,低气压射频放电、高气压脉冲放电、激光维持等离子体、微放电相关器件及应用等。担任 high voltage 副编辑、 frontiers in physics 等期刊客座编辑,ieee高级会员,美国物理学会会员,中国电工技术学会高级会员,中国电工技术学会等离子体专委会青年委员。入选国家级青年人才计划。获评教育部2018年度高等学校科学研究优秀成果奖(自然科学奖二等奖)一项。获ieee第42届国际等离子体科学会议(icops)最佳论文奖一等奖(第一作者)。多次担任ieee icops, ppps, cieec等国际会议分会场主席。在国内外知名学术期刊(apl,psst,pop等)及学术会议发表论文120余篇(期刊论文50余篇,会议论文70余篇,授权美国专利(第一发明人)1项,h指数为18,在本领域学术会议及论坛做主旨报告、特邀报告15次

2021.12~ 清华大学电机系,副教授、博士生导师

2021.03~2021.12清华大学电机系,助理教授、博士生导师

2016.07~2021.02密歇根州立大学,博士后研究员

2015.07~2016.07电力规划设计总院,工程师

2010.07~2015.07清华大学电机系高电压与绝缘技术专业,获电气工程博士学位

2006.06~2010.07上海交通大学电子信息与电气工程学院,获电气工程学士学位

2018年教育部高等学校科学研究优秀成果奖(自然科学奖)二等奖

2015年北京市优秀毕业生

2015年清华大学优秀博士毕业生

2015年清华大学优秀博士学位论文一等奖

2015年清华大学第二十届学术新秀提名奖

2015年ieee第42届国际等离子体科学会议(icops)最佳论文奖

2015年清华大学电机系第十届研究生学术新秀

1、讲授课程:

高电压工程-实验探索课 (全系本科生,32学时,拟讲授)

气体放电 (全系研究生,32学时)

工程实践调研(“创新领军工程博士”,课程负责人)


2、人才培养:

在读博士生:林楚彬(2023-)、陈健东(2022-)、王震(2022-)、张东荷雨(2021-)、陈佳毅(2021-)、冯子豪(2021-)

在站博士后:刘金宝(2021-)、赵志航(2022-)、蒋园园(2022-)、韩星(2023-)

已毕业本科生:刘鹏波(2021)

本科生srt:林楚彬(2021)、梅航岳(2021)、陈圣安(2021)


2023.01-2023.12,国家自然科学基金委,原创探索计划项目,基于相似理论的等离子体刻蚀用大尺寸射频放电标度律研究(项目负责人)

2023.01-2026.12,国家自然科学基金委,面上项目,用于准分子激光的高气压大体积均匀稳定辉光放电机理研究(项目负责人)

2022.09-2023.07,企业横项课题,lpd放电技术研究(项目负责人)

2022.06-2023.12,企业横项课题,气体激光放电动理学研究(项目负责人)

2022.01-2022.12,企业横项课题,激光维持等离子体逆韧致辐射机理研究(项目负责人)

2021.06-2022.12,电力系统国家重点实验室研究基金/面上项目,低气压电负性气体射频放电相似性研究(项目负责人)

2015.01-2018.12,国家自然科学基金委,面上项目帕邢定律相关问题的研究(项目参与人

2013.01-2016.12,国家自然科学基金委,面上项目基于大型核聚变装置器壁清洗的辉光放电相似性研究(项目参与人

1、国际期刊论文选(2018年以来)

*corresponding author

1)yangyang fu*, huihui wang, and xinxin wang, “similarity theory and scaling laws for low-temperature plasma discharges: a comprehensive review”, rev. modern plasma phys. 7, 10 (2023). [invited review paper]

2)yutai li, yangyang fu, zhigang liu, peng wang, xiaobing zou, and xinxin wang*,“energetic electrons and their contribution to the breakdown of a point-plane air gap with a positive nanosecond pulse”, j. appl. phys. 132, 233301 (2022).

3)zhigang liu, cong xu, yangyang fu, peng wang, xiaobing zou*, and xinxin wang, “molecular dynamics study of liquid-vapor transition in underwater electrical wire explosion”, phys. plasmas 29, 123503 (2022).

4)dong yang, huihui wang, bocong zheng, xiaobing zou, xinxin wang, and yangyang fu*, “application of similarity laws to dual-frequency capacitively coupled radio frequency plasmas with electrical asymmetry effect”, plasma sources sci. technol. 31, 115002 (2022).

5)jiandong chen, john p. verboncoeur, and yangyang fu*, “microgap breakdown with floating metal rod perturbations”, appl. phys. lett. 121, 074102 (2022).

6)de-qi wen, peng zhang, janez krek, yangyang fu, and john p. verboncoeur, “higher harmonics in multipactor induced plasma ionization breakdown near a dielectric surface”, phys. rev. lett. 129, 045001 (2022).

7)de-qi wen*, peng zhang, janez krek, yangyang fu, and john p. verboncoeur, “stream instability-induced higher harmonics in plasma ionization breakdown near an emissive dielectric surface”, plasma sources sci. technol. 31, 095004 (2022)

8)yutai li, yangyang fu, zhigang liu, handong li, peng wang, haiyun luo, xiaobin zou, and xinxin wang*, “effect of photoionisation on initial discharge in air under nanosecond pulse voltage”, high volt. 1-7 (2022). [early access]

9)yutai li, yangyang fu, zhigang liu, handong li, peng wang, haiyun luo, xiaobin zou, and xinxin wang*, “observation of electron runaway in a tip-plane air gap under negative nanosecond pulse voltage by pic/mcc simulation”, plasma sources sci. technol. 31, 045027 (2022).

10)dong yang,yangyang fu*, bocong zheng, huihui wang, qi hua fan, xiaobing zou, xinxin wang, and john p. verboncoeur, “similarity properties in capacitive radio frequency plasmas with nonlinear collision processes”, plasma sources sci. technol. 30, 115009 (2021).

11)yangyang fu*#, huihui wang#, bocong zheng*, peng zhang, qi hua fan, xinxin wang, and john p. verboncoeur, “generalizing similarity theory to radio-frequency discharge plasmas across nonlinear transition regimes”, phys. rev. appl. 16, 054016 (2021).

12)yangyang fu*, huihui wang, bocong zheng*, peng zhang, qihua fan, xinxin wang, and john p. verboncoeur, “direct current microplasma formation around microstructure arrays”, appl. phys. lett. 118, 174101 (2021).

13)bocong zheng,yangyang fu, keliang wang, thomas schuelke, and qi hua fan*, “electron dynamics in radio frequency magnetron sputtering argon discharges with a dielectric target”, plasma sources sci. technol. 30, 035019 (2021).

14)janez krek*,yangyang fu*, guy m. parsey, and john p. verboncoeur*, “benchmark of the kgmf with coupled boltzmann equation solver”, comput. phys. commun. 260, 107748 (2021).

15)yangyang fu*, bocong zheng*, peng zhang, qi hua fan,and john p. verboncoeur, “transition characteristics and electron kinetics in microhollow cathode discharges”, j. appl. phys. 129, 023302 (2021).[invited]

16)bocong zheng,yangyang fu, keliang wang, thanh phuc tran, thomas schuelke, and qi hua fan*, “comparison of 1d and 2d particle-in-cell simulations for dc magnetron sputtering discharges”, phys. plasmas 28, 014504 (2021).

17)allen l. garner*, guodong meng, yangyang fu, amanda m. loveless, russell s. brayfield, and adam m. darr, “transitions between electron emission and gas breakdown mechanisms across length and pressure scales”, j. appl. phys. 128, 210903 (2020).[invited]

18)yangyang fu*, bocong zheng*, de-qi wen, peng zhang, qi hua fan, and john p. verboncoeur, “similarity law and frequency scaling in low-pressure capacitive radio frequency plasmas”, appl. phys. lett. 117, 204101(2020).

19)yangyang fu*, bocong zheng, peng zhang, qihua fan, john p. verboncoeur, and xinxin wang, “similarity of capacitive radio frequency discharges in nonlocal regimes”, phys. plasmas 27, 113501 (2020).

20)bocong zheng, yangyang fu, deqi wen, keliangwang, thomas schuelke, and qi hua fan*, “influence of metastable atoms in low pressure magnetized radio-frequency argon discharges”, j. phys. d: appl. phys. 53, 435201 (2020).

21)yangyang fu*, bocong zheng, de-qi wen, peng zhang, qi hua fan,and john p. verboncoeur, “high-energy ballistic electrons in low-pressure radio-frequency plasmas”, plasma sources sci. technol. 29, 09lt01 (2020).

22)yangyang fu*, pengzhang, john p. verboncoeur, and xinxin wang, “electrical breakdown from macro to micro/nano scales: a tutorial and a review of the state of the art”, plasma res. express 2, 013001 (2020).[invited tutorial/review paper]

23)yangyang fu*, janez krek, deqi wen, peng zhang, and john p. verboncoeur, “transition of low-temperature plasma similarity laws from low to high ionization degree regimes”, plasma sources sci. technol. 28, 095012 (2019).

24)yangyang fu* and john p. verboncoeur, “on the similarities of low-temperature discharge plasmas”, ieee trans.plasma sci. 47, 1994 (2019).[invited]

25)yangyang fu*, peng zhang, janez krek, and john p. verboncoeur, “gas breakdown and its scaling law in microgaps with multiple concentric cathode protrusions”, appl. phys. lett. 114, 014102 (2019).

26)yangyang fu*, janez krek, peng zhang, and john p. verboxinxinncoeur, “evaluating microgap breakdown mode transition with electric field non-uniformity”, plasma sources sci. technol. 27, 095014 (2018).

27)yangyang fu*, peng zhang, and john p. verboncoeur, “paschen's curve in microgaps with an electrode surface protrusion”, appl. phys. lett. 113, 054102 (2018).

28)yangyang fu*, peng zhang, and john p. verboncoeur, “gas breakdown in atmospheric pressure microgaps with a surface protrusion on the cathode”, appl. phys. lett. 112, 254102 (2018). [featured article]

29)yangyang fu*, janez krek, guy m. parsey, and john p. verboncoeur, “characterizing the dominant ions in low-temperature argon plasmas in the range of 1-800 torr”, phys. plasmas 25, 033505 (2018).

30)yangyang fu*, peng zhang, john p. verboncoeur, andrew j. christlieb, and xinxin wang, “effect of surface protrusion on plasma sheath properties in atmospheric microdischarges”, phys. plasmas 25, 013530 (2018).

4、国际会议论文选

1)yangyang fu, “similarity and scaling networks for low-pressure discharge plasmas”, aps gec international online plasma seminar (iops), thursday, january 19, 2023. [invited review & tutorial]

2)yangyang fu, “on the similarity and scaling laws of low-temperature plasmas”, kps 70th anniversary and 2022 fall meeting, bexco, korea, virtual, tuesday-friday, october 18-21, 2022. [invited talk]

3)yangyang fu, “microscale gas breakdown: theory and model”, the 17th annual conference of china electrotechnical society, virtual, september 17–18, 2022. [invited talk]

4)yangyang fu, “similarity of radio frequency discharge plasmas: recent advances”, national conference on high voltage & discharge plasmas (hvdp 2022), hefei, anhui, china, august 26-28, 2022. [invited talk]

5)yangyang fu, “electrical breakdown from macro to micro scales”, 1st international fusion and plasma conference (ifpc 2022), haevichi hotel, jeju, south korea, august 22-26, 2022. [invited talk]

6)yangyang fu, “effects of electrode surface morphology on microgap breakdown and microplasma properties”, 11th international workshop on microplasmas, raleigh, usa, june 6–10, 2022. [invited talk]

7)dong yang, xiaobing zou, and yangyang fu*, “similarity laws in dual-frequency capacitively coupled rf plasmas with electrical asymmetry effect”, 5th international electrical and energy conference (cieec), nanjing (online), china, may 27–29, 2022. [best paper award]

8)yangyang fu, “study on the effects of electrode surface micro-structure on the microplasma formation”, 20th national conference on plasmas, china, april 23–24, 2022. [keynote talk]

9)yangyang fu, “similarity theory and scaling laws for low-temperature plasma discharges”, seminar series co-organized by ieee npss singapore chapter and singapore university of technology and design, hosted by prof. lay kee (ricky) ang (ieee fellow, head of the department of science, mathematics and technology, singapore university of technology and design), april 22, 2022. [invited talk]

10)yangyang fu, “formation of microplasmas around microstructured electrode surfaces”, the 3rd symposium on plasma and energy conversion & the 2nd china-russia symposium on pulsed discharge and plasma, wuhan, china, december 18-december 19, 2021. [invited talk]

11)yangyang fu, “on the similarity and scaling laws of low-temperature plasmas”, the 5thasia-pacific conference on plasma physics (dpp2021), loc kyushu univ, fukuoka, japan, september 26-october 1, 2021. [invited talk]

12)yangyang fu, huihui wang, bocong zheng, peng zhang, qi hua fan, xinxin wang, and john p. verboncoeur, “microplasma formation around a microstructured surface”, the 48th ieee international conference on plasma science (icops), lake tahoe, nevada, usa, september 12-16, 2021. [invited talk]

13)yangyang fu, xinxin wang, bocong zheng, peng zhang, qi hua fan, and john p. verboncoeur, “on the scaling laws for low-temperature plasmas at macro and micro scales”, 15th international conference on gas discharge plasmas and their applications, ekaterinburg, russia, september 5-10, 2021. [invited talk]

14)yangyang fu and john p. verboncoeur, “similarity laws for low-temperature plasmas: theories and applications”, particle-in-cellnetworking, interaction, and collaboration(pic-nic), october 20-21, 2020. (hosted by dr. matthew m. hopkins, sandia national laboratories). [invited talk]

15)yangyang fu, “multi-scale gas discharges and their similarities: from macro to micro”, online seminar on high voltage discharge and plasma application, organized by the plasma and their application committee of china electrotechnical society (ces), may 15, 2020. [invited talk]

16)yangyang fu, janez krek, peng zhang, and john p. verboncoeur, “gas breakdown in microgaps with electrode surface protrusions: paschen’s curve, non-uniformity of electric field, and breakdown modetransitions”, iplasmanano-ix 2018 conference on plasma nanoscience and nanotechnology, new buffalo, mi, usa, august 26-29, 2018. [invited talk]

17)yangyang fu, janez krek, and john p. verboncoeur, “evolutions of electron energy probability function in low-pressure radio-frequency discharges”, gordon research conferences (grc): plasma processing science, fundamental insight in plasma processes, smithfield, rhode island, usa, august 5-10, 2018. [nsf funded participant award]

18)yangyang fuandjohn p. verboncoeur, “on the similarities of low-temperature plasma discharges”, the 45th ieee international conference on plasma science (icops), denver, colorado, usa, june 24-28, 2018. [invited talk]

19)yangyang fu, peng zhang, and john p. verboncoeur, “gas breakdown in atmospheric pressure microgaps with a surface protrusion on the cathode”, the 45th ieee international conference on plasma science (icops), denver, colorado, usa, june24-28, 2018. [invited talk]

20)yangyang fu, haiyun luo, xiaobing zou, and xinxin wang, “modification of paschen’s law for the non-uniform electric field between two plane-parallel electrodes”, the 42nd ieee international conference on plasma science(icops), belek, antalya, turkey, may24-28, 2015. [best paper award, 1stplace]

5、国内期刊论文选

1)王新新, 付洋洋. 气体放电相似性. 高电压技术, 2014, 40(10): 1-7.

2)付洋洋, 罗海云, 邹晓兵, 王强, 王新新. 棒-板电极下缩比气隙辉光放电相似性的仿真研究. 物理学报, 2014, 63(9): 095206.

3)刘微粒, 付洋洋, 邹晓兵, 王新新. 基于 kerr 效应的绝缘子表面 laplace 电场光斑图像计算. 高电压技术, 2014, 40(1): 87-94.

4)付洋洋, 罗海云, 邹晓兵, 刘凯, 王新新. 缩比间隙中辉光放电相似性的初步研究. 物理学报, 2013, 62(20): 205209.

5)付洋洋, 王强, 张贵新, 王新新. 基于表面电位测量的表面电荷反演计算. 高电压技术, 2013, 39(01): 88-95.

1、学术组织任职

ieee高级会员

美国物理学会(aps)会员

ieee核与等离子体学会会员

中国电工技术学会高级会员

中国电工技术学会等离子体及应用专业委员会青年委员

2、国际期刊审稿

担任applied physics letters, plasma sources science and technology, physics of plasmas, journal of physics d: applied physics,plasma science and technology等30余个学术期刊审稿人

physics of plasmas (2020年期刊杰出审稿人)

plasma science and technology (2019年、2020年期刊杰出审稿人)

plasma sources science and technology (2017年、2019年期刊杰出审稿人)

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