王文鹏  男  博导  中国科学院上海光学精密机械研究所
电子邮件: wangwenpeng@siom.ac.cn
通信地址: 嘉定区清河路390号
邮政编码: 201800

研究领域

        在超强激光驱动等离子体粒子加速这一国际学术热点领域开展了大量工作,完成了相关的理论模拟和实验研究,并取得了突破性的进展,已经在Physical Review LettersPhysical Review Research、Scientific ReportsPhysical Review Special Topics - Accelerators And BeamsApplied Physics LettersPhysics of PlasmasNew Journal of PhysicsPlasma Physics and Controlled Fusion等国际知名SCI期刊上发表的文章70余篇,其中,第一、通信作者论文小计36。内容涉及到粒子加速、极端场等前沿物理、EUV光刻机光源研究等领域。

   具体研究内容包括:

  (一)新型LG光场操控粒子方面1. 国际上第一次将拉盖尔-高斯(LG)激光模式应用到相对论等离子相互作用过程中,开启了相对论LG激光驱动等离子体相互作用的大门2. 在物理类国际顶级杂志Phys. Rev. Lett.期刊发表题为新型光镊——相对论涡旋刀的文章,实现了2018年诺贝尔物理学奖光镊和CPA两项技术的结合,开辟出一种新型相对论光镊(LG激光)操控粒子手段。3. 在国际上首次在百TW激光系统上实现了重频相对论LG激光的产生与应用,发表于Phys. Rev. Lett.  

  (二)传统强激光粒子加速与应用方面1. 理论模拟中,首次将激光上升沿参数加入到优化光压加速模型中,实现陡上升沿激光驱动的高效率光压加速,可为SULF10PWSEL100PW激光驱动高效离子加速实验提供可行的理论依据。2. 建立实验室质子加速实验平台,不仅获得高达20MeV的质子加速,还实现了生物(蜻蜓)静态和热电子在靶内输运的动态质子成像应用。3.创新性将双质子成像技术耦合到级联加速机制中,2018年,国际上第二个实现了双激光驱动双平面靶级联质子加速实验,获得破纪录的单能能谱(~5MeV)调制结果;2019年,世界上首次实现了低荷质比离子(C2+)的级联加速实验,为未来质子医疗、核物理散射截面探测等潜在应用所需的多种类、高品质离子源提供了可行的技术手段。

(三)EUV光刻机光源模拟与实验研究。

(四)结构光场在弱光领域与强光领域的产生及应用。       

招生信息

欢迎有意向从事激光、光学、等离子体物理、理论物理等方向研究的学生报考。

招生专业
070207-光学
070204-等离子体物理
070201-理论物理
招生方向
激光等离子体相互作用理论与实验研究
质子加速,热电子产生
LG新型激光产生及应用

教育背景

2008-09--2012-01   中国科学院上海光学精密机械研究所   博士
学历

研究生

学位
博士


工作经历

   
工作简历
2021-01~现在, 中国科学院上海光学精密机械研究所, 研究员
2014-01~2020-12,中国科学院上海光学精密机械研究所, 副研究员
2012-01~2013-12,中国科学院上海光学精密机械研究所, 助理研究员

专利与奖励

   
专利成果
[1] 冯博, 沈百飞, 张辉, 王文鹏. 一种百MeV汤姆逊质子谱仪. CN: CN207690759U, 2018-08-03.

出版信息

   
发表论文
[1] Dong, H, Wang, W P, He, J Z, Shi, Z Y, Leng, Y X, Li, R X, Xu, Z Z. Self-generated magnetic collimation mechanism driven by ultra-intense LG laser. PHYSICS OF PLASMAS[J]. 2023, 30(8): http://dx.doi.org/10.1063/5.0149491.
[2] Sun, X Y, Wang, W P, Dong, H, He, J Z, Shi, Z Y, Leng, Y X, Li, R X, Xu, Z Z. Cascaded solenoid acceleration of vortex laser-driven collimated proton beam. PLASMA PHYSICS AND CONTROLLED FUSION[J]. 2023, 65(9): http://dx.doi.org/10.1088/1361-6587/ace8ba.
[3] Hao, Shufa, Lv, Zhengxing, Dong, Hao, He, Jianzhi, Huang, Nanshun, Sun, Fengyu, Shi, Zhiyong, Sun, Hao, Wang, Wenpeng, Leng, Yuxin, Li, Ruxin, Xu, Zhizhan. High-gradient modulation of microbunchings using a minimized system driven by a vortex laser. CHINESE OPTICS LETTERS[J]. 2023, 21(9): http://dx.doi.org/10.3788/COL202321.093801.
[4] Wang, W. P., H. Dong, Shi, Z. Y., C. Jiang, Y. Xu, Z. X. Zhang, F. X. Wu, J. B. Hu, J. Y. Qian, J. C. Zhu, X. Y. Liang, Y. X. Leng, Li, R. X., Z. Z. Xu. All-optical edge-enhanced proton imaging driven by an intense vortex laser. Physics of Plasmas[J]. 2023, 30: 033108-, [5] Sun, Fengyu, Zhu, Linwei, Wang, Wenpeng, Shi, Zhiyong, Liu, Yanqi, Xua, Yi, Shi, Qiang, Leng, Yuxin, Li, Ruxin. Three-dimensional dynamic optical trapping using non-iterative computer-generated holography. OPTICS AND LASERS IN ENGINEERING[J]. 2023, 164: http://dx.doi.org/10.1016/j.optlaseng.2023.107500.
[6] Cheng Jiang, Zongxin Zhang, Hao Dong, Zhiyong Shi, Jianzhi He, Shufa Hao, Fengyu Sun, Gui, Jiayan, Jiayi Qian, Jiacheng Zhu, Wenpeng Wang, Yi Xu, Xiaoyan Liang, Yuxin Leng, Ruxin Li. Generation and application of high-contrast laser pulses using plasma mirror in the SULF-1PW beamline. 中国光学快报[J]. 2023, 21: 043802-, [7] Wang, W P, Dong, H, Shi, Z Y, Leng, Y X, Li, R X, Xu, Z Z. Collimated particle acceleration by vortex laser-induced self-structured "plasma lens". APPLIED PHYSICS LETTERS[J]. 2022, 121(21): [8] Dong, H, Wang, W P, Lv, Z X, Jiang, C, He, J Z, Leng, Y X, Li, R X, Xu, Z Z. Topological structure effects of Laguerre-Gaussian laser on self-collimation acceleration mechanism. FRONTIERS IN PHYSICS[J]. 2022, 10: [9] Yuan, Y, Ma, Y Y, Yang, X H, Wang, W P, Zhang, G B, Cui, Y, Chen, S J, Wu, F Y, Zi, M, Zheng, P F, Xu, B H, Ke, Y Z, Kawata, S. Enhancement of the conversion efficiency of soft x-ray by colliding gold plasmas. PHYSICS OF PLASMAS[J]. 2021, 28(11): http://dx.doi.org/10.1063/5.0063045.
[10] Jiang, C, Wang, W P, Weber, S, Dong, H, Leng, Y X, Li, R X, Xu, Z Z. Direct acceleration of an annular attosecond electron slice driven by near-infrared Laguerre-Gaussian laser. HIGH POWER LASER SCIENCE AND ENGINEERING[J]. 2021, 9(3): 79-86, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=7108050&detailType=1.
[11] Jiang, C, Wang, W P, Dong, H, Leng, Y X, Li, R X, Xu, Z Z. Collimated electron sheet driven by an intense Laguerre-Gaussian pulse. PHYSICS OF PLASMAS[J]. 2021, 28(9): http://dx.doi.org/10.1063/5.0055240.
[12] Wang, W P, Jiang, C, Dong, H, Lu, X M, Li, J F, Xu, R J, Sun, Y J, Yu, L H, Guo, Z, Liang, X Y, Leng, Y X, Li, R X, Xu, Z Z. Hollow Plasma Acceleration Driven by a Relativistic Reflected Hollow Laser. PHYSICAL REVIEW LETTERS[J]. 2020, 125(3): 034801-, https://www.webofscience.com/wos/woscc/full-record/WOS:000549758200012.
[13] Zhai, S H, Shen, B F, Borghesi, M, Wang, W P, Zhang, H, Kar, S, Ahmed, H, Li, J F, Li, S S, Zhang, H, Wang, C, Lu, X M, Wang, X L, Xu, R J, Yu, L H, Leng, Y X, Liang, X Y, Li, R X, Xu, Z Z. Proton array focused by a laser-irradiated mesh. APPLIED PHYSICS LETTERS[J]. 2019, 114(1): http://dx.doi.org/10.1063/1.5054884.
[14] Wang, W P, Shen, B F, Zhang, H, Lu, X M, Li, J F, Zhai, S H, Li, S S, Wang, X L, Xu, R J, Wang, C, Leng, Y X, Liang, X Y, Li, R X, Xu, Z Z. Spectrum tailoring of low charge-to-mass ion beam by the triple-stage acceleration mechanism. PHYSICS OF PLASMAS[J]. 2019, 26(4): http://dx.doi.org/10.1063/1.5088548.
[15] Wang, W P, Jiang, C, Shen, B F, Yuan, F, Gan, Z M, Zhang, H, Zhai, S H, Xu, Z Z. New Optical Manipulation of Relativistic Vortex Cutter. PHYSICAL REVIEW LETTERS[J]. 2019, 122(2): http://dx.doi.org/10.1103/PhysRevLett.122.024801.
[16] Wang Wenpeng, Jiang Cheng, Li Shasha, Dong Hao, Shen Baifei, Leng Yuxin, Li Ruxin, Xu Zhizhan. Monoenergetic proton beam accelerated by single reflection mechanism only during hole-boring stage. HIGH POWER LASER SCIENCE AND ENGINEERING[J]. 2019, 7(3): 222-227, http://lib.cqvip.com/Qikan/Article/Detail?id=7100485080.
[17] Zhang, G, Huang, M, Bonasera, A, Ma, Y G, Sheng, B F, Wang, H W, Wang, W P, Xu, J C, Fan, G T, Fu, H J, Xue, H, Zheng, H, Liu, L X, Zhang, S, Li, W J, Cao, X G, Deng, X G, Li, X Y, Liu, Y C, Yu, Y, Zhang, Y, Fu, C B, Zhang, X P. Nuclear probes of an out-of-equilibrium plasma at the highest compression. PHYSICS LETTERS A[J]. 2019, 383(19): 2285-2289, http://dx.doi.org/10.1016/j.physleta.2019.04.048.
[18] Li, Shasha, Shen, Baifei, Wang, Wenpeng, Bu, Zhigang, Zhang, Hao, Zhang, Hui, Zhai, Shuhua. Diffraction of relativistic vortex harmonics with fractional average orbital angular momentum. CHINESE OPTICS LETTERS[J]. 2019, 17(5): http://dx.doi.org/10.3788/COL201917.050501.
[19] Wang, W P, Shen, B F, Zhang, H, Lu, X M, Li, J F, Zhai, S H, Li, S S, Wang, X L, Xu, R J, Wang, C, Leng, Y X, Liang, X Y, Li, R X, Xu, Z Z. Multi-stage proton acceleration controlled by double beam image technique. PHYSICS OF PLASMAS[J]. 2018, 25(6): http://dx.doi.org/10.1063/1.5022347.
[20] Liu, Chen, Shen, Baifei, Zhang, Xiaomei, Ji, Liangliang, Bu, Zhigang, Wang, Wenpeng, Yi, Longqing, Zhang, Lingang, Xu, Jiancai, Xu, Tongjun, Pei, Zhikun. Ultra-bright, well-collimated, GeV gamma-ray production in the QED regime. PHYSICS OF PLASMAS[J]. 2018, 25(2): http://dx.doi.org/10.1063/1.5005077.
[21] Xu, Jiancai, Shen, Baifei, Zhang, Xiaomei, Shi, Yin, Ji, Liangliang, Zhang, Lingang, Xu, Tongjun, Wang, Wenpeng, Zhao, Xueyan, Xu, Zhizhan. Terawatt-scale optical half-cycle attosecond pulses. SCIENTIFIC REPORTS[J]. 2018, 8(1): https://doaj.org/article/51c8bb2df1294697b03825a6ff30a4c7.
[22] Zhang, H, Shen, B F, Wang, W P, Wang, N W, Zhang, H, Li, S S, Zhai, S H, Li, J F, Wang, X L, Xu, R J, Leng, Y X, Liang, X Y, Li, R X, Xu, Z Z. Crater-like structures induced by intense laser. APPLIED PHYSICS LETTERS[J]. 2017, 111(18): http://dx.doi.org/10.1063/1.5010050.
[23] Wang, W. P., Shen, B. F., Xu, Z. Z.. Accelerating gradient improvement from hole-boring to light-sail stage using shape-tailored laser front. PHYS. PLASMAS[J]. 2017, 24(1): http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000395395100053&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=3a85505900f77cc629623c3f2907beab.
[24] Zhang, H, Shen, B F, Wang, W P, Zhai, S H, Li, S S, Lu, X M, Li, J F, Xu, R J, Wang, X L, Liang, X Y, Leng, Y X, Li, R X, Xu, Z Z. Collisionless Shock Acceleration of High-Flux Quasimonoenergetic Proton Beams Driven by Circularly Polarized Laser Pulses. PHYSICAL REVIEW LETTERS[J]. 2017, 119(16): http://dx.doi.org/10.1103/PhysRevLett.119.164801.
[25] Liu, Chen, Shen, Baifei, Zhang, Xiaomei, Ji, Liangliang, Wang, Wenpeng, Xu, Jiancai, Zhao, Xueyan, Yi, Longqing, Shi, Yin, Zhang, Lingang, Xu, Tongjun, Pei, Zhikun, Xu, Zhizhan. Generation of ultra-intense gamma-ray train by QED harmonics. PHYSICS OF PLASMAS[J]. 2016, 23(8): http://dx.doi.org/10.1063/1.4961237.
[26] Zhai, S H, Shen, B F, Wang, W P, Zhang, H, He, S K, Lu, F, Zhang, F Q, Deng, Z G, Dong, K G, Wang, S Y, Zhou, K N, Xie, N, Wang, X D, Zhang, L G, Huang, S, Liu, H J, Zhao, Z Q, Gu, Y Q, Zhang, B H, Xu, Z Z. Proton beam shaped by "particle lens" formed by laser-driven hot electrons. APPLIED PHYSICS LETTERS[J]. 2016, 108(21): https://www.webofscience.com/wos/woscc/full-record/WOS:000377024400059.
[27] Pei, Zhikun, Shen, Baifei, Shi, Yin, Ji, Liangliang, Wang, Wenpeng, Zhang, Xiaomei, Zhang, Lingang, Xu, Tongjun, Liu, Chen. Quasi-stationary fluid theory of the hole-boring process. PHYS. PLASMAS[J]. 2016, 23(4): http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000375855500059&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=3a85505900f77cc629623c3f2907beab.
[28] Zhang, Lingang, Shen, Baifei, Zhang, Xiaomei, Huang, Shan, Shi, Yin, Liu, Chen, Wang, Wenpeng, Xu, Jiancai, Pei, Zhikun, Xu, Zhizhan. Deflection of a Reflected Intense Vortex Laser Beam. PHYSICAL REVIEW LETTERS[J]. 2016, 117(11): http://dx.doi.org/10.1103/PhysRevLett.117.113904.
[29] Zhang, Lingang, Liu, Chen, Shen, Baifei, Zhang, Xiaomei, Ji, Liangliang, Wang, Wenpeng, Xu, Jiancai, Zhao, Xueyan, Yi, Longqing, Shi, Yin, Xu, Tongjun, Pei, Zhikun, Xu, Zhizhan. Generation of ultra-intense gamma-ray train by QED harmonics. PHYS. PLASMAS[J]. 2016, 23(8): http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000383878100084&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=3a85505900f77cc629623c3f2907beab.
[30] Wang, W P, Shen, B F, Zhang, H, Lu, X M, Wang, C, Liu, Y Q, Yu, L H, Chu, Y X, Li, Y Y, Xu, T J, Zhang, H, Zhai, S H, Leng, Y X, Liang, X Y, Li, R X, Xu, Z Z. Focal spot effects on the generation of proton beams during target normal sheath acceleration. PLASMA PHYSICS AND CONTROLLED FUSION[J]. 2016, 58(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000371570900011.
[31] Pei, Zhikun, Shen, Baifei, Shi, Yin, Ji, Liangliang, Wang, Wenpeng, Zhang, Xiaomei, Zhang, Lingang, Xu, Tongjun, Liu, Chen. Quasi-stationary fluid theory of the hole-boring process. PHYSICS OF PLASMAS[J]. 2016, 23(4): http://dx.doi.org/10.1063/1.4946873.
[32] Zhang, Lingang, Shen, Baifei, Zhang, Xiaomei, Huang, Shan, Shi, Yin, Liu, Chen, Wang, Wenpeng, Xu, Jiancai, Pei, Zhikun, Xu, Zhizhan. Deflection of a Reflected Intense Vortex Laser Beam. PHYS. REV. LETT.[J]. 2016, 117(11): http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000383248700008&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=3a85505900f77cc629623c3f2907beab.
[33] Pei, Zhikun, Liu, Chen, Shen, Baifei, Zhang, Xiaomei, Shi, Yin, Ji, Liangliang, Wang, Wenpeng, Yi, Longqing, Zhang, Lingang, Xu, Tongjun, Xu, Zhizhan. Generation of gamma-ray beam with orbital angular momentum in the QED regime. PHYS. PLASMAS[J]. 2016, 23(9): http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000385633200082&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=3a85505900f77cc629623c3f2907beab.
[34] Wang, Wenpeng, Shen, Baifei, Zhang, Xiaomei, Zhang, Lingang, Shi, Yin, Xu, Zhizhan. Hollow screw-like drill in plasma using an intense Laguerre-Gaussian laser. SCIENTIFIC REPORTS[J]. 2015, 5: https://www.webofscience.com/wos/woscc/full-record/WOS:000348833600003.
[35] Zhang, H., Shen, B. F., Wang, W. P., Xu, Y., Liu, Y. Q., Liang, X. Y., Leng, Y. X., Li, R. X., Yan, X. Q., Chen, J. E., Xu, Z. Z.. Collisionless shocks driven by 800 nm laser pulses generate high-energy carbon ions. PHYS. PLASMAS[J]. 2015, 22(1): 13113-, http://ir.siom.ac.cn/handle/181231/14133.
[36] Xu, T J, Shen, B F, Zhang, X M, Yi, L Q, Wang, W P, Zhang, L G, Xu, J C, Zhao, X Y, Shi, Y, Liu, C, Pei, Z K. Cascaded proton acceleration by collisionless electrostatic shock. PHYSICS OF PLASMAS[J]. 2015, 22(7): http://dx.doi.org/10.1063/1.4923455.
[37] Wang, Xiaofeng, Shen, Baifei, Zhang, Xiaomei, Wang, Wenpeng, Xu, Jiancai, Yi, Longqing, Shi, Yin. High energy protons generation by two sequential laser pulses. PHYSICS OF PLASMAS[J]. 2015, 22(4): http://dx.doi.org/10.1063/1.4917071.
[38] Pei, Zhikun, Shen, Baifei, Zhang, Xiaomei, Wang, Wenpeng, Zhang, Lingang, Yi, Longqing, Shi, Yin, Xu, Zhizhan. Cascaded radiation pressure acceleration. PHYSICS OF PLASMAS[J]. 2015, 22(7): http://dx.doi.org/10.1063/1.4927764.
[39] Zhang, Lingang, Shen, Baifei, Xu, Jiancai, Ji, Liangliang, Zhang, Xiaomei, Wang, Wenpeng, Zhao, Xueyan, Yi, Longqing, Yu, Yahong, Shi, Yin, Xu, Tongjun, Xu, Zhizhan. High quality electron bunch generation with CO2-laser-plasma interaction. PHYSICS OF PLASMAS[J]. 2015, 22(2): http://dx.doi.org/10.1063/1.4906883.
[40] Wang, W P, Shen, B F, Zhang, H, Lu, X M, Wang, C, Liu, Y Q, Yu, L H, Chu, Y X, Li, Y Y, Xu, T J, Zhang, H, Zhai, S H, Leng, Y X, Liang, X Y, Li, R X, Xu, Z Z. Large-scale proton radiography with micrometer spatial resolution using femtosecond petawatt laser system. AIP ADVANCES[J]. 2015, 5(10): https://doaj.org/article/49857d63712a40b9b7b77b278b2ffd91.
[41] Zhang, Xiaomei, Shen, Baifei, Shi, Yin, Wang, Xiaofeng, Zhang, Lingang, Wang, Wenpeng, Xu, Jiancai, Yi, Longqiong, Xu, Zhizhan. Generation of Intense High-Order Vortex Harmonics. PHYSICAL REVIEW LETTERS[J]. 2015, 114(17): http://dx.doi.org/10.1103/PhysRevLett.114.173901.
[42] Shi, Yin, Shen, Baifei, Zhang, Lingang, Zhang, Xiaomei, Wang, Wenpeng, Xu, Zhizhan. Light Fan Driven by a Relativistic Laser Pulse. PHYSICAL REVIEW LETTERS[J]. 2014, 112(23): http://dx.doi.org/10.1103/PhysRevLett.112.235001.
[43] Yu, Yahong, Shen, Baifei, Yu, Wei, Wang, Wenpeng, Zhang, Xiaomei, Ji, Liangliang, Zhao, Xueyan, Wang, Xiaofeng, Yi, Longqing, Shi, Yin, Xu, Tongjun, Zhang, Lingang, Wen, Meng. Layered structure in the interaction of thin foil with two laser pulses. PHYSICS OF PLASMAS[J]. 2014, 21(2): 024502-1-024502-3, http://dx.doi.org/10.1063/1.4867063.
[44] Wang, W P, Zhang, X M, Wang, X F, Zhao, X Y, Xu, J C, Yu, Y H, Yi, L Q, Shi, Y, Zhang, L G, Xu, T J, Liu, C, Pei, Z K, Shen, B F. Ion motion effects on the generation of short-cycle relativistic laser pulses during radiation pressure acceleration. HIGH POWER LASER SCIENCE AND ENGINEERING[J]. 2014, 2(2): 1-7, http://lib.cqvip.com/Qikan/Article/Detail?id=72807683504849524850484855.
[45] Wang, Xiaofeng, Shen, Baifei, Zhang, Xiaomei, Ji, Liangliang, Wang, Wenpeng, Zhao, Xueyan, Xu, Jiancai, Yu, Yahong, Yi, Longqing, Shi, Yin, Xu, Tongjun, Zhang, Lingang. Light pressure acceleration with frequency-tripled laser pulse. PHYSICS OF PLASMAS[J]. 2014, 21(8): 083102-1-083102-5, http://dx.doi.org/10.1063/1.4891663.
[46] Yi, Longqing, Shen, Baifei, Ji, Liangliang, Lotov, Konstantin, Sosedkin, Alexander, Zhang, Xiaomei, Wang, Wenpeng, Xu, Jiancai, Shi, Yin, Zhang, Lingang, Xu, Zhizhan. Positron acceleration in a hollow plasma channel up to TeV regime. SCIENTIFIC REPORTS[J]. 2014, 4: http://dx.doi.org/10.1038/srep04171.
[47] Zhang, Xiaomei, Shen, Baifei, Zhang, Lingang, Xu, Jiancai, Wang, Xiaofeng, Wang, Wenpeng, Yi, Longqiong, Shi, Yin. Proton acceleration in underdense plasma by ultraintense Laguerre-Gaussian laser pulse. NEW JOURNAL OF PHYSICS[J]. 2014, 16(12): https://doaj.org/article/ae14f054656442c1aba90eb40528b539.
[48] Yu, Yahong, Shen, Baifei, Ji, Liangliang, Zhang, Xiaomei, Wang, Wenpeng, Zhao, Xueyan, Wang, Xiaofeng, Yi, Longqing, Shi, Yin, Xu, Tongjun, Zhang, Lingang, Xu, Zhizhan. Enhanced high harmonic generation and the phase effect in double-sided relativistic laser-foil interaction. PHYSICS OF PLASMAS[J]. 2013, 20(3): http://dx.doi.org/10.1063/1.4796090.
[49] Wang, W P, Shen, B F, Zhang, H, Xu, Y, Li, Y Y, Lu, X M, Wang, C, Liu, Y Q, Lu, J X, Shi, Y, Leng, Y X, Liang, X Y, Li, R X, Wang, N Y, Xu, Z Z. Effects of nanosecond-scale prepulse on generation of high-energy protons in target normal sheath acceleration. APPLIED PHYSICS LETTERS[J]. 2013, 102(22): http://www.irgrid.ac.cn/handle/1471x/684844.
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[56] Wang, W P, Shen, B F, Zhang, X M, Ji, L L, Yu, Y H, Yi, L Q, Wang, X F, Xu, Z Z. Dynamic study of a compressed electron layer during the hole-boring stage in a sharp-front laser interaction region. PHYSICAL REVIEW SPECIAL TOPICS-ACCELERATORS AND BEAMS[J]. 2012, 15(8): http://ir.siom.ac.cn/handle/181231/11010.
[57] Zhang, Xiaomei, Shen, Baifei, Ji, Liangliang, Wang, Wenpeng, Xu, Jiancai, Yu, Yahong, Yi, Longqing, Wang, Xiaofeng, Hafz, Nasr A M, Kulagin, V. Effect of pulse profile and chirp on a laser wakefield generation. PHYSICS OF PLASMAS[J]. 2012, 19(5): http://dx.doi.org/10.1063/1.4714610.
[58] Ji Liangliang, Shen Baifei, Zhang Xiaomei, Wang Wenpeng, Yu Yahong, Wang Xiaofeng, Yi Longqing, Shi Yin. Plasma Approach for Generating Ultra-Intense Single Attosecond Pulse. PLASMA SCIENCE AND TECHNOLOGY[J]. 2012, 14(10): 859-, http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000310547000001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=3a85505900f77cc629623c3f2907beab.
[59] Zhang, Xiaomei, Shen, Baifei, Ji, Liangliang, Wang, Wenpeng, Xu, Jiancai, Yu, Yahong, Wang, Xiaofeng. Instabilities in interaction of circularly polarized laser pulse and overdense target. PHYSICS OF PLASMAS[J]. 2011, 18(7): http://dx.doi.org/10.1063/1.3603821.
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科研活动

   
科研项目
( 1 ) 高对比度超强拍瓦激光级联加速高能质子束, 主持, 国家级, 2014-01--2016-12
( 2 ) 高对比度超强拍瓦激光级联加速高能质子束, 主持, 省级, 2013-09--2016-08
( 3 ) 优化质子照相技术研究靶内外热电子输运与等离子体膨胀过程, 主持, 国家级, 2016-01--2019-12
( 4 ) 高对比度超强激光级联TNSA加速高能质子束, 主持, 国家级, 2014-06--2016-06
( 5 ) 上海超强超短激光实验装置, 参与, 国家级, 2016-07--2018-12
( 6 ) 中科院特别交流计划 (A类), 主持, 部委级, 2019-01--2020-12
( 7 ) 利用新型光镊——相对论涡旋刀操控粒子束, 主持, 部委级, 2019-09--2024-09
( 8 ) 利用拍瓦飞秒涡旋激光驱动高效率级联质子加速研究, 主持, 国家级, 2021-01--2024-12
参与会议
(1)Particle manipulation by the relativistic Gaussian and Laguerre-Gaussian (LG) laser   第四届极端条件下的物质与辐射 国际会议(ICMRE2019)   王文鹏   2019-05-29
(2)Particle manipulation by the relativistic Gaussian and Laguerre-Gaussian (LG) laser    王文鹏   2019-05-04
(3)相对论光镊操控粒子束加速研究   2019年高能量密度物理青年科学家论坛   王文鹏   2019-04-13
(4)Multi-stage Proton Acceleration Controlled by Double Beam Image Technique   王文鹏   2018-10-21
(5)Multi-stage Proton Acceleration Controlled by Double Beam Image Technique   2018-05-06

合作情况

   参与国内外科研合作。与国内北京大学、清华大学、上海交大等院校进行了业务合作。2018年协助实验室与ELI-Beamlines签订MOU20194月申请人被邀请参加ELI-Beamlines主办的10PW实验用户讨论会,作为负责人签订了中国科学院特别交流计划(中捷合作)项目,为未来中科院上光所和捷克ELI-Beamlines大型10PW级别激光装置的实验合作奠定了基础。

        近期与英国牛津大学Petter Norreys教授课题组合作PW级别涡旋激光(LG激光)产生和物理研究合作。