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原子与分子物理、量子信息与量子计算
王伟民教授 Professor

办公地点:北园物理楼305B

电子邮箱:weiminwang1@ruc.edu.cn

电  话:+86-10-62515307

传  真:+86-10-62517887

研究组主页:

教育经历

2006-2009年 中国科学院物理研究所,光学博士

2006-2009Institute of Physics, Chinese Academy of Sciences,PhD in Optics

2003-2006年 中国工程物理研究院,等离子体物理硕士

2003-2006 Graduate School of China Academy of Engineering Physics, Master in Plasma Physics

1999-2003年 中国地质大学物理系,物理学学士

1999-2003 Department of Physics, China University of Geosciences, Bachelor in Physics

工作经历

2019年-今     中国人民大学物理系, 教授

2019-present  Professor, Department of Physics, Renmin University of China

2009-2019年 中国科学院物理研究所,助理研究员、副研究员

2009-2019  Assistant/Associate Professor, Institute of Physics, Chinese Academy of Science

2017-2018年  英国Strathclyde大学物理系,玛丽居里学者

2017-2018  Marie Skłodowska-Curie Individual Fellow, University of Strathclyde, UK

2014-2015年  德国Jülich高等模拟研究所,洪堡学者

2014-2015  Alexander von Humboldt Research Fellow, Forschungszentrum Jülich GmbH, Germany


研究兴趣

强激光与物质相互作用理论和数值模拟研究,包括:

1.激光核聚变(或惯性约束核聚变)

2.超强激光驱动的量子电动力学(QED)过程和光核物理过程

3.强激光驱动的超亮辐射源(从低频的THz波到高频的伽玛射线)

4.强激光驱动的粒子加速器(电子加速、离子加速)

5.数值模拟算法和程序的开发(粒子模拟、激光传输等)


He has been working on theory and simulation studies of laser-plasma physics including novel radiation sources, particle acceleration, laser fusion, laser-driven QED processes, and the corresponding code development.


主持的项目/课题(Funding):

1.中国科学院战略性先导科技专项(A类)课题(编号XDA25050300:2020年-2024年)(主持)

2.国家重点研发计划课题 (编号2018YFA0404801:2018年-2023年)(主持)

3.国家科技重大专项子课题 (2016年-2019年) (主持)
4.国家科技重大专项子课题 (2011年-2015年) (主持)
5.国家自然科学基金委面上项目 (编号11775302:2018年-2021年) (主持)
6.国家自然科学基金委面上项目 (编号11375261:2014年-2017年) (主持)
7.国家自然科学基金委青年项目 (编号11105217:2012年-2014年) (主持)
8.国家自然科学基金委中俄交流项目(编号11411130174:2014年-2015年) (主持)


人才培养

计划每年招生1-2名研究生(Recruitment of 1-2 graduate students each year)


主要工作和成果

主要工作简介:

王伟民长期从事激光与物质相互作用的理论与数值模拟研究。独立发展了系列模拟程序,解析模型,并利用这些工具对强激光驱动的太赫兹辐射源、伽玛射线源、激光聚变、极端强激光驱动的QED效应等问题进行了研究,取得了如下主要成果:1)开发了面向快点火激光聚变加热过程的全动理学集成模拟程序,并提出了磁场引导方案以提高激光能量耦合效率,获得法国和日本实验初步验证;粒子模拟中发现了亚波长光栅对激光的近全吸收现象并用表面静电场模型进行解释,并被合作实验证实。2)揭示了双色激光驱动的太赫兹辐射在磁化和非磁化等离子体中的产生机制,并预测此方案可以推广到更多的激光频率组合,并用实验进行了证实。3)开发了KLAPS粒子模拟(PIC)系列程序,不仅用于理论研究,也用来支持国内外多个实验组的合作研究;开发了QED-PIC(量子电动力学-粒子模拟)程序,以研究未来的超强激光与物质相互作用前沿物理,及超亮伽玛射线源、正电子源、光核物理过程。共发表SCI学术论文110余篇(包括11Phys. Rev. Lett./X3PNAS1Science Advances),在SCI上被引用2000余次(H因子26。在国际学术会议上做大会/邀请报告16次。2016年起担任中国核学会计算物理分会理事。


学术奖项(Prizes and Awards):

2018年  亚太物理学会等离子体物理青年学者奖(DPP Young Researcher Award of AAPPS in 2018)

2015年  国际纯粹与应用物理联合会计算物理青年科学家奖(IUPAP Young Scientist Prize in Computational Physics in 2015)
2009年  蔡诗东等离子体物理奖 (S. T. Tsai Plasma Physics Award in China in 2009)


代表性工作(Selected publications):

2022年:

1. Huai-Hang Song, Wei-Min Wang*, and Yu-Tong Li*, Dense Polarized Positrons from Laser-Irradiated Foil Targets in the QED Regime, Phys. Rev. Lett. 129, 035001 (2022).

2. Yong Tan, Hang Zhao, Wei-Min Wang*, Rui Zhang, Yue-Jin Zhao*, Cun-Lin Zhang, Xi-Cheng Zhang, and Liang-Liang Zhang*, Water-Based Coherent Detection of Broadband Terahertz Pulses, Phys. Rev. Lett. 128, 093902 (2022).

3. T.-T. Qin, W. Luo*,  H.-Y. Lan, and  W.-M. Wang*, Ultrafast probing of plasma ion temperature in proton–boron fusion by nuclear resonance fluorescence emission spectroscopy, Matter and Radiation at Extremes 7, 035901 (2022).

4. Meng Liu, Jia-Xiang Gao, Wei-Min Wang*, and Yu-Tong Li*, Theoretical Study of the Efficient Ion Acceleration Driven by Petawatt-Class Lasers via Stable Radiation Pressure Acceleration, Appl. Sci. 12, 2924 (2022).

5. Feng Wan, Wei-Quan Wang, Qian Zhao, Hao Zhang, Tong-Pu Yu, Wei-Min Wang, Wen-Chao Yan, Yong-Tao Zhao, Karen Z. Hatsagortsyan, Christoph H. Keitel, Sergei V. Bulanov, and Jian-Xing Li, Quasimonoenergetic Proton Acceleration via Quantum Radiative Compression, Phys. Rev. Applied 17, 024049 (2022).



2021年:

6. Huai-Hang Song, Wei-Min Wang∗, and Yu-Tong Li∗, Generation of polarized positron beams via collisions of ultrarelativistic electron beams, Phys. Rev. Research 3, 033245 (2021).

7. Huai-Hang Song, Wei-Min Wang∗, Yan-Fei Li , Bing-Jun Li, Yu-Tong Li∗ , Zheng-Ming Sheng, Li-Ming Chen and Jie Zhang, Spin and polarization effects on the nonlinear Breit–Wheeler pair production in laser-plasma interaction, New J. Phys. 23, 075005 (2021).

8. Wei-Jun Zhou, Wei-Min Wang*, and Li-Ming Chen*, Enhanced ion acceleration in the relativistic transparent regime due to the laser rising edge, Plasma Phys. Control. Fusion 63, 035016 (2021).


2020年:

9. Wei-Min Wang*, Zheng-Ming Sheng*, Thomas Wilson, Yu-Tong Li*, and Jie Zhang, Guided propagation of extremely intense lasers in plasma via ion motion, Phys. Rev. E 101, 011201(R) (2020).

10. Huai-Hang Song, Wei-Min Wang*, Jia-Qi Wang, Yu-Tong Li*, and Jie Zhang, Low-frequency whistler waves excited by relativistic laser pulses, Phys. Rev. E 102, 053204 (2020).

11. Guang Hu, Wei-Qiang Sun, Bing-Jun Li, Yan-Fei Li*, Wei-Min Wang*, Meng Zhu, Hua-Si Hu*, and Yu-Tong Li, Quantum-stochasticity-induced asymmetry in the angular distribution of electrons in a quasiclassical regime, Phys. Rev. A 102, 042218 (2020).

12. Zhu Xing -Long,Wang Wei-Min*, Yu Tong -Pu,He Feng, Chen Min, Weng Su -Ming, Chen Li -Ming, Li Yu -Tong, Sheng Zheng -Ming*, Zhang Jie, Research progress of ultrabright g-ray radiation and electron-positron pair production driven by extremely intense laser fields, Acta Phys. Sin. 70, 085202 (2021).

13. Yan-Fei Li, Yue-Yue Chen, Wei-Min Wang, and Hua-Si Hu, Production of Highly Polarized Positron Beams via Helicity Transfer from Polarized Electrons in a Strong Laser Field,Phys. Rev. Lett. 125, 044802 (2020).

14. Xing-Long Zhu, Min Chen*, Su-Ming Weng, Tong-Pu Yu, Wei-Min Wang, Feng He, Zheng-Ming Sheng*, Paul McKenna, Dino A. Jaroszynski, Jie Zhang, Extremely brilliant GeV gamma-rays from a two-stage laser-plasma accelerator, Science Advances 6, eaaz7240 (2020).

15. Guo-Qian Liao, Hao Liu, Graeme G. Scott, Yi-Hang Zhang, Bao-Jun Zhu, Zhe Zhang, Yu-Tong Li, Chris Armstrong, Egle Zemaityte, Philip Bradford, Dean R. Rusby, David Neely, Peter G. Huggard, Paul McKenna, Ceri M. Brenner, Nigel C. Woolsey, Wei-Min Wang, Zheng-Ming Sheng, and Jie Zhang, Towards Terawatt-Scale Spectrally Tunable Terahertz Pulses via Relativistic Laser-Foil Interactions,   Phys. Rev. X 10, 031062 (2020).

16. J. Zhang*, W. M. Wang, X. H. Yang, D. Wu, Y. Y. Ma, J. L. Jiao, Z. Zhang, F. Y. Wu, X. H. Yuan, Y. T. Li, J. Q. Zhu, Double-cone ignition scheme for inertial confinement fusion, Philosophical Transactions R. Soc. A 378, 20200015 (2020).

17. Kun Xue, Zhen-Ke Dou, Feng Wan, Tong-Pu Yu, Wei-Min Wang, Jie-Ru Ren, Qian Zhao, Yong-Tao Zhao, Zhong-Feng Xu, and Jian-Xing Li*, Matter Radiat. Extremes 5, 054402 (2020).

18. Siyuan Zhang, Jinqing Yu, Yinren Shou, Zheng Gong, Dongyu Li, Yixing Geng, Weimin Wang, Xueqing Yan, and Chen Lin*, Terahertz radiation enhanced by target ablation during the interaction of high intensity laser pulse and micron-thickness metal foil, Physics of Plasmas 27, 023101 (2020);


2019年:

19. Liang-Liang Zhang, Wei-Min Wang*, Tong Wu, Shi-Jia Feng, Kai Kang, Cun-Lin Zhang, Yan Zhang, Yu-Tong Li, Zheng-Ming Sheng*, and Xi-Cheng Zhang, Strong Terahertz Radiation from a Liquid-Water Line, Phys. Rev. Applied 12, 014005 (2019).

20. Huai-Hang Song, Wei-Min Wang*, Jian-Xing Li*, Yan-Fei Li, and Yu-Tong Li, Spin-polarization effects of an ultrarelativistic electron beam in an ultraintense two-color laser pulse, Phys. Rev. A 100, 033407 (2019).

21. Yihang Zhang, Wei-Min Wang*, Yutong Li*, Zhe Zhang, Paul McKenna, David Neely, and Jie Zhang, Effects of internal target structures on laser-driven neutron production, Nucl. Fusion 59, 076032 (2019).

22. Guoqian Liao, Yutong Li*, Hao Liu, Graeme G. Scott, David Neely*, Yihang Zhang, Baojun Zhu, Zhe Zhang, Chris Armstrong, Egle Zemaityte, Philip Bradford, Peter G. Huggard, Dean R. Rusby, Paul McKenna, Ceri M. Brenner, Nigel C. Woolsey, Weimin Wang, Zhengming Sheng, and Jie Zhang*, Multimillijoule coherent terahertz bursts from picosecond laser-irradiated metal foils, Proceedings of the National Academy of Sciences of the USA 116 (10), 3994-3999 (2019).

23. Jie Feng, Yifei Li, Jinguang Wang, Dazhang Li, Fang Li, Wenchao Yan, Weimin Wang, and Liming Chen, Gamma-ray emission from wakefield-accelerated electrons wiggling in a laser field, Scientific Reports 9, 2531 (2019).

24. C D Armstrong, C M Brenner, E Zemaityte, G G Scott, D R Rusby, G Liao, H Liu, Y Li, Z Zhang, Y Zhang, B Zhu, P Bradford, N C Woolsey, P Oliveira, C Spindloe, W Wang, P McKenna and D Neely, Bremsstrahlung emission profile from intense laser-solid interactions as a function of laser focal spot size, Plasma Phys. Control. Fusion 61, 034001 (2019).


2018年:

25. Wei-Min Wang*, Zheng-Ming Sheng, Paul Gibbon, Li-Ming Chen, Yu-Tong Li*, and Jie Zhang*, Collimated ultrabright gamma rays from electron wiggling along a petawatt laser-irradiated wire in the QED regime, Proceedings of the National Academy of Sciences of the USA 115 (40), 9911–9916 (2018).

26. Wang Wei-Min*, Zhang Liang-Liang, Li Yu-Tong, Sheng Zheng-Ming, Zhang Jie, Theoretical and experimental studies on terahertz radiation from laser-driven air plasma, Acta Physica Sinica, 67(12) 124202 (2018).

27. Yan-Fei Li, Yu-Tong Li*, Wei-Min Wang*, Da-Wei Yuan, Bao-Jun Zhu, Jia-Yong Zhong, Hui-Gang Wei, Fang Li, Bo Han, Kai Zhang, Xiao-Xing Pei, Zhe Zhang, Jia-Rui Zhao, Chang Liu, Guo-Qian Liao, Zhi-Heng Fang, Chen Wang, Xiao-Gang Wang, Youichi Sakawa, Yong-Joo Rhee, Xin Lu, Neng Hua, Bao-Qiang Zhu, Taichi Morita, Yasuhiro Kuramitsu, Xiu-Guang Huang, Si-Zu Fu, Jian-Qiang Zhu, Gang Zhao & Jie Zhang, Laboratory Study on Disconnection Events in Comets, Scientific Reports 8, 463 (2018).

28. J. Y. Mao, O. Rosmej, Y. Ma, M. H. Li, B. Aurand, F. Gaertner, W. M. Wang, J. Urbancic, A. Schoenlein, B. Zielbauer, U. Eisenbarth, V. Bagnoud, F. Wagner, F. Horst, M. Syha, S. Mathias, Y. T. Li, M. Aeschlimann, L. M. Chen*, and T. Kuehl , Energy enhancement of the target surface electron by using a 200 TW sub-picosecond laser, Energy enhancement of the target surface, Opt. Lett. 43, 3909 (2018).


2017年:

29. Liang-Liang Zhang, Wei-Min Wang*, Tong Wu, Rui Zhang, Shi-Jing Zhang, Cun-Lin Zhang, Yan Zhang, Zheng-Ming Sheng, and Xi-Cheng Zhang, Observation of Terahertz Radiation via the Two-Color Laser Scheme with Uncommon Frequency Ratios, Phys. Rev. Lett. 119, 235001 (2017).

30. W.-M. Wang*, Z.-M. Sheng, Y.-T. Li, Y. Zhang, and J. Zhang, Terahertz emission driven by two-color laser pulses at various frequency ratios, Phys. Rev. A 96, 023844 (2017).

31. W.-M. Wang*, P. Gibbon, Z.-M. Sheng, Y.-T. Li*, and J. Zhang, Laser opacity in underdense preplasma of solid targets due to quantum electrodynamics effects, Phys. Rev. E 96, 013201 (2017).

32. G Q Liao, Y T Li, C Li, H Liu, Y H Zhang, W M Jiang, X H Yuan, J Nilsen, T Ozaki, W M Wang, Z M Sheng, D Neely, P McKenna and J Zhang, Intense terahertz radiation from relativistic laser–plasma interactions, Plasma Phys. Control. Fusion 59,014039 (2017).



2016年:

33. Guo-Qian Liao, Yu-Tong Li, Yi-Hang Zhang, Hao Liu, Xu-Lei Ge, Su Yang, Wen-Qing Wei, Xiao-Hui Yuan, Yan-Qing Deng, Bao-Jun Zhu, Zhe Zhang, Wei-Min Wang, Zheng-Ming Sheng, Li-Ming Chen, Xin Lu, Jing-Long Ma, Xuan Wang, and Jie Zhang, Demonstration of Coherent Terahertz Transition Radiation from Relativistic Laser-Solid Interactions, Phys. Rev. Lett. 116, 205003 (2016).

34. C. Li, G.-Q. Liao, M.-L. Zhou, F. Du, J.-L. Ma, Y.-T. Li, W.-M. Wang, Z.-M. Sheng, L.-M. Chen, and J. Zhang, Backward terahertz radiation from intense laser-solid interactions, Opt. Express 24, 4010 (2016).

35. G.-Q. Liao, Y.-T. Li, C. Li, S. Mondal, H. A. Hafez, M. A. Fareed, T. Ozaki, W.-M. Wang, Z.-M. Sheng, and J. Zhang,Terahertz emission from two-plasmon-decay induced transient currents in laser-solid interactions, Phys. Plasmas 23, 013104 (2016).


2015年:

36. W.-M. Wang*, P. Gibbon, Z.-M. Sheng, and Y.-T. Li, Tunable Circularly Polarized Terahertz Radiation from Magnetized Gas Plasma, Phys. Rev. Lett. 114, 253901 (2015).

37. W.-M. Wang*, P. Gibbon, Z.-M. Sheng, and Y.-T. Li, Magnetically Assisted Fast Ignition, Phys. Rev. Lett. 114, 015001 (2015).

38. W.-M. Wang*, P. Gibbon, Z.-M. Sheng, and Y.-T. Li, Integrated simulation approach for laser-driven fast ignition, Phys. Rev. E 91, 013101 (2015).

39. Yin Chuan-Lei, Wang Wei-Min*, Liao Guo-Qian, Li Meng-Chao, Li Yu-Tong, and Zhang Jie, Ultrahigh-energy electron beam generated by ultra-intense circularly polarized laser pulses, Acta Phys. Sin. 64, 144102 (2015).

40. G. Q. Liao, Y. T. Li, C. Li, L. N. Su, Y. Zheng, M. Liu, W. M. Wang, Z. D. Hu, W. C. Yan, J. Dunn, J. Nilsen, J. Hunter, Y. Liu, X. Wang, L. M. Chen, J. L. Ma, X. Lu, Z. Jin, R. Kodama, Z. M. Sheng, and J. Zhang, Bursts of Terahertz Radiation from Large-Scale Plasmas Irradiated by Relativistic Picosecond Laser Pulses, Phys. Rev. Lett. 114, 255001 (2015).

41. M. Dalui, W.-M. Wang, T. M. Trivikram, S. Sarkar, S. Tata, J. Jha, P. Ayyub, Z. M. Sheng and M. Krishnamurthy*, Preferential enhancement of laser driven carbon ion acceleration from optimized nanostructured surfaces, Scientific Reports 5, 11930 (2015).

42. BJ Zhu, YT Li*, DW Yuan, YF Li, F Li, GQ Liao, JR Zhao, JY Zhong, FB Xue, SK He, WW Wang, F Lu, FQ Zhang, L Yang, KN Zhou, N Xie, W Hong, HG Wei, K Zhang, B Han, XX Pei, C Liu, Z Zhang, WM Wang, JQ Zhu, YQ Gu, ZQ Zhao, BH Zhang, G Zhao, J Zhang,Strong magnetic fields generated with a simple open-ended coil irradiated by high power laser pulses, Appl. Phys. Lett. 107, 261903 (2015).

43. Sheng Zheng-Ming*, Weng Su-Ming, Yu Lu-Le, Wang Wei-Min, Cui Yun-Qian, Chen Min, and Zhang Jie, Absorption of ultrashort intense lasers in laser–solid interactions,Chin. Phys. B 24, 015201 (2015) (TOPIC REVIEW).