目前团队总人数11人，其中职工2人，博士后1人，博士研究生4人，硕士研究生4人。团队多人获得上海光机所年度奖学金，博士后获得上海超博资助，上海市优秀毕业生等。

1.       中国科学院前瞻战略科技先导项目（A类先导项目）子课题，EUV光刻光源系统设计，2023/10-2028/09，1500万，在研，主持。

2.       上海自然科学基金面上项目，22ZR1470900，超强LG激光驱动涡旋超准直质子加速理论与实验研究，2022/06-2025/05, 20万，在研，主持。

3.       中国科学院特别交流计划，PW涡旋激光产生及其驱动电子加速的理论和实验研究，2022/01-2023/12,40万，在研，主持。

4.       国家自然科学基金面上项目，12075306，利用拍瓦飞秒涡旋激光驱动高效率级联质子加速研究，2021/01-2024/12，64万，在研，主持。

5.       青年博士后合作导师支持计划，2021/12-2023/12，15万，在研，主持。

6.       基础前沿科学研究计划从0-1原始创新项目，ZDBSLY-SLH006，利用新型光镊——相对论涡旋刀操控粒子束，2019/09-2024/09，300万，在研，主持。

7.       上海超强超短激光实验装置子课题，2101001B，等离子体镜技术研究&工艺设备采购，2016/07-2019/06，550万，结题，主持。

8.       国家自然科学基金面上项目，11575274，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，2016/01-2019/12，86万，结题，主持。

9.       国家自然科学基金青年项目，11305236，高对比度拍瓦激光级联加速高能质子束，2014/01-2016/12，28万，结题，主持。

10.    中国科学院特别交流计划（A类）PW激光驱动等离子体相互作用进行实际激光强度测量的理论和实验研究，2019/01-2020/12，10万，结题，主持。

11.    上海市自然科学基金青年项目，13ZR1463300，高对比度超强激光级联TNSA加速高能质子束，2013/09-2016/08，10万，结题，主持。

12.    国家863计划，2014AA8041084，高对比度超强激光级联TNSA加速高能质子束，2014/07-2015/06，30万，结题，主持。

13.    国家863计划，2015AA8041084，高对比度超强激光级联TNSA加速高能质子束，2015/07-2016/06，30万，结题，主持。

14.    973项目，2011CB808104，超强光场驱动的高性能高能粒子束的产生及其应用开拓，2011/01-2015/12，222.18万，结题，参加。

15.    国家863计划，2010AA1408，激光粒子加速方法和技术研究，2010/07-2011/06，35万，结题，参加。

国家863计划，2009AA1342，激光加速质子方法的理论研究，2009/07-2010/06，20万，结题，参加。

1.      中国科学院前瞻战略科技先导项目（A类先导项目）子课题，EUV光刻光源系统设计，2023/10-2028/09，1500万，在研，主持。

2.      上海自然科学基金面上项目，22ZR1470900，超强LG激光驱动涡旋超准直质子加速理论与实验研究，2022/06-2025/05, 20万，在研，主持。

3.      中国科学院特别交流计划，PW涡旋激光产生及其驱动电子加速的理论和实验研究，2022/01-2023/12,40万，在研，主持。

4.      国家自然科学基金面上项目，12075306，利用拍瓦飞秒涡旋激光驱动高效率级联质子加速研究，2021/01-2024/12，64万，在研，主持。

5.      青年博士后合作导师支持计划，2021/12-2023/12，15万，在研，主持。

6.      基础前沿科学研究计划从0-1原始创新项目，ZDBSLY-SLH006，利用新型光镊——相对论涡旋刀操控粒子束，2019/09-2024/09，300万，在研，主持。

7.      上海超强超短激光实验装置子课题，2101001B，等离子体镜技术研究&工艺设备采购，2016/07-2019/06，550万，结题，主持。

8.      国家自然科学基金面上项目，11575274，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，2016/01-2019/12，86万，结题，主持。

9.      国家自然科学基金青年项目，11305236，高对比度拍瓦激光级联加速高能质子束，2014/01-2016/12，28万，结题，主持。

10.   中国科学院特别交流计划（A类）PW激光驱动等离子体相互作用进行实际激光强度测量的理论和实验研究，2019/01-2020/12，10万，结题，主持。

11.   上海市自然科学基金青年项目，13ZR1463300，高对比度超强激光级联TNSA加速高能质子束，2013/09-2016/08，10万，结题，主持。

12.   国家863计划，2014AA8041084，高对比度超强激光级联TNSA加速高能质子束，2014/07-2015/06，30万，结题，主持。

13.   国家863计划，2015AA8041084，高对比度超强激光级联TNSA加速高能质子束，2015/07-2016/06，30万，结题，主持。

14.   973项目，2011CB808104，超强光场驱动的高性能高能粒子束的产生及其应用开拓，2011/01-2015/12，222.18万，结题，参加。

15.   国家863计划，2010AA1408，激光粒子加速方法和技术研究，2010/07-2011/06，35万，结题，参加。

国家863计划，2009AA1342，激光加速质子方法的理论研究，2009/07-2010/06，20万，结题，参加。

 发表文章：

(1)    ShufaHao#, Zhengxing Lv#, Hao Dong, Jianzhi He, Nanshun Huang, Fengyu Sun, ZhiyongShi, Hao Sun, Wenpeng Wang*, Yuxin Leng, Ruxin Li, and Zhizhan Xu*, High-gradientmodulation of microbunchings using a minimized system driven by a vortex laser,Chinese Optics Letters, 2023, 21, 093801.

(2)    H.Dong, W. P. Wang*, J. Z. He, Z. Y. Shi, Y. X. Leng, R. X. Li*, and Z. Z.Xu, Self-generated magnetic collimation mechanism driven by ultra-intense LGlaser, Physics of Plasmas, 2023, 30, 083101.

(3)    X.Y. Sun, W. P. Wang*, H. Dong, J. Z. He, Z. Y. Shi, Y. X. Leng, R. X.Li*, and Z. Z. Xu, Cascaded solenoid acceleration of vortex laser-drivencollimated proton beam, Plasma Physics and Controlled Fusion, 2023, 65, 095008.

(4)    Z.Y. Shi, Y. Yuan, W. P. Wang*, Y. Y. Ma*, X. Y. Sun, N. Lin, and Y. X.Leng, Enhanced extreme ultraviolet conversion efficiency of a 2 μm laser-drivenpreformed tin-droplet target using short picosecond pre-pulses, Physics ofPlasmas, 2023, 30, 043107.

(5)    W. P. Wang*,H. Dong, Z. Y. Shi, 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, R. X. Li*, and Z. Z. Xu, All-opticaledge-enhanced proton imaging driven by an intense vortex laser, Physics ofPlasmas, 2023, 30, 033108.

(6)    ChengJiang†, Zongxin Zhang†, Hao Dong, Zhiyong Shi, Jianzhi He, Shufa Hao, FengyuSun, Jiayan Gui, Jiayi Qian, Jiacheng Zhu, Wenpeng Wang*, Yi Xu**,Xiaoyan Liang, Yuxin Leng***, and Ruxin Li, Generation and application ofhigh-contrast laser pulses using plasma mirror in the SULF-1PW beamline, ChineseOptics Letters, 2023, 21, 043802.

(7)    FengyuSun, Linwei Zhu,* Wenpeng Wang,* Zhiyong Shi, Yanqi Liu, Yi Xu, QiangShi, Yuxin Leng, Ruxin Li*, and Ruxin Li*, Three-dimensional dynamic opticaltrapping using non-iterative computer-generated holography, Optics and Lasersin Engineering, 2023, 164, 107500.

(8)    H.Dong, W. P. Wang,* Z. X. Lv, C. Jiang, J. Z. He, Y. X. Leng, R. X. Li,† and Z.Z. Xu, Topological structure effects of Laguerre-Gaussian laser onself-collimation acceleration mechanism, Frontiers in Physics, 2022, 10, 1054778.

(9)    W. P. Wang*, H. Dong, Z. Y. Shi, Y. X. Leng,R. X. Li, and Z. Z. Xu, Collimated particle acceleration by vortex laser-inducedself-structured “plasma lens”, AppliedPhysics Letters, 2022, 121, 214102.

(10) Y.Yuan, Y. Y. Ma,*  W. P. Wang,*  S. J. Chen, Y. Cui, M. Zi, X. H. Yang, G. B.Zhang, and Y. X. Leng, Enhancing the conversion efficiency of extremeultraviolet light sources using a 2 µm wavelength laser, Plasma Physics andControlled Fusion, 2022, 64, 025001.

(11)  Y. Yuan, Y. Y. Ma*, X. H. Yang, W.P. Wang*, G. B. Zhang, Y. Cui, S. J. Chen, F. Y. Wu, M. Zi, P. F. Zheng, B.H. Xu, Y. Z. Ke, and S. Kawata, Enhancement of the conversion efficiency ofsoft x-ray by colliding gold plasmas, Physics of Plasmas, 2021, 28, 113301.

(12) C.Jiang, W. P. Wang*, H. Dong, Y. X. Leng, R. X. Li, and Z. Z. Xu, Collimatedelectron sheet driven by an intense Laguerre–Gaussian pulse, Physics of Plasmas,2021, 28, 093102.

(13) C.Jiang, W. P. Wang*, S. Weber, H. Dong, Y. X. Leng, R. X. Li, and Z. Z.Xu, Direct acceleration of an annular attosecond electron slice driven bynear-infrared Laguerre–Gaussian laser, High Power Laser Science and Engineering,2021, 9, e44.

(14)  W. P. Wang*,§; C. Jiang§; H. Dong;X. M. Lu; J. F. Li; R. J. Xu; Y. J. Sun; L. H. Yu; Z. Guo; X. Y. Liang; Y. X.Leng; R. X. Li†; and Z. Z. X‡; Hollow Plasma AccelerationDriven by a Relativistic Reflected Hollow Laser, Physical Review Letters, 2020,125: 034801.

(15)  W. P. Wang*; C. Jiang; B. F. Shen; F.Yuan; Z. M. Gan; H. Zhang; S. H. Zhai; Z. Z. Xu; New Optical Manipulation ofRelativistic Vortex Cutter, Physical Review Letters, 2019, 122(2): 0-024801.

(16)  Wang, Wenpeng; Shen, Baifei*; Zhang,Xiaomei; Zhang, Lingang; Shi, Yin; Xu, Zhizhan*; Hollow screw-like drill inplasma using an intense Laguerre-Gaussian laser , Scientific Reports, 2015, 5: 0-8274.

(17)  S. H. Zhai; B. F.Shen*; M.Borghesi; W. P.Wang*; H.Zhang*;S.Kar; H.Ahmed; J. F.Li; S. S.Li; H.Zhang; C.Wang; X. M.Lu; X. L.Wang; R. J.Xu;L. H.Yu; Y. X.Leng; X. Y.Liang; R. X.Li; Z. Z.Xu; Proton array focused by a laser-irradiatedmesh , Applied Physics Letters, 2019, 114(1): 0-013509.

(18)  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, 2017,111(18):0-184104.

(19)  Wang W P; Shen B F*; Zhang H; Lu X M; LiJ 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 imagetechnique , Physics of Plasmas, 2018, 25(6): 0-063116.

(20)  Wang, Wenping*; Jiang, Cheng; Li, Shasha;Dong, Hao; Shen, Baifei; Leng, Yuxin; Li, Ruxin; Xu, Zhizhan; Monoenergeticproton beam accelerated by single reflection mechanism only during hole-boringstage , High Power Laser Science and Engineering, 2019, 7: 0-e55.

(21)  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-massion beam by the triple-stage acceleration mechanism , Physics of Plasmas, 2019,26(4): 0-UNSP 043102.

(22)  Wang W. P.; Shen B. F.*; Xu Z. Z.*;Accelerating gradient improvement using shape-tailor laser front in radiationpressure acceleration progress , Conference on Laser Acceleration of Electrons,Protons, and Ions IV, Prague, 2017-4-24至2017-4-26.

(23)  Wang W. P.; Shen B. F.*; Xu Z. Z.*;Accelerating gradient improvement from hole-boring to light-sail stage usingshape-tailored laser front , Physics of Plasmas, 2017, 24(1): 0-013104.

(24)  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.; ZhaiS. H.; Leng Y. X.; Liang X. Y.; Li R. X.; Xu Z. Z.*; Focal spot effects on thegeneration of proton beams during target normal sheath acceleration , PlasmaPhysics and Controlled Fusion, 2016, 58(2): 0-025010.

(25)  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.; ZhaiS. H.; Leng Y. X.; Liang X. Y.; Li R. X.; Xu Z. Z.*; Large-scale protonradiography with micrometer spatial resolution using femtosecond petawatt lasersystem , AIP Advances, 2015, 5(10): 0-107214.

(26)  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 ofshort-cycle relativistic laser pulses during radiation pressure acceleration ,High Power Laser Science and Engineering, 2014, 2: 0-UNSP e9.

(27)  Wang, W. P.; Shen, B. F.*; Zhang, X. M.;Wang, X. F.; Xu, J. C.; Zhao, X. Y.; Yu, Y. H.; Yi, L. Q.; Shi, Y.; Zhang, L.G.; Xu, T. J.; Xu, Z. Z.*; Cascaded target normal sheath acceleration , Physicsof Plasmas, 2013, 20(11):0-113107.

(28)  W. P. Wang; B. F. Shen*; H. Zhang; Y.Xu; Y. Y. L i; X. M. Lu; C. Wang; Y. Q. Liu; J. X. Lu; Y. Shi; Y. X. Leng; X.Y. Liang; R. X. Li; N. Y. Wang; Z. Z. Xu*; Effects of nanosecond-scale prepulseon generation of high-energy protons in target normal sheath acceleration,Applied Physics Letters, 2013, 102(22): 0-224101.

(29)  Wang W P; Wang W T; Zhang X M; Ji L L;Wang F C; Wen M; Xu J C; Cai Y; Xu Y; Wang C; Leng Y X; Liu J S; Li R X; Shen BF*; Xu Z Z*; Angular distribution of emitted electrons due to intensep-polarized laser foil interaction (vol 17, 033101, 2010) , Physics of Plasmas,2012, 19(5):0-059901.

(30)  Wang, W. P.; Zhang, H.; Wu, B.; Jiao, C.Y.; Wu, Y. C.; Zhu, B.; Dong, K. G.; Hong, W.*; Gu, Y. Q.; Shen, B. F.*; Xu,Y.; Leng, Y. X.; Li, R. X.; Xu, Z. Z.*; Generation of low-divergencemegaelectronvolt ion beams from thin foil irradiated with an ultrahigh-contrastlaser , Applied Physics Letters, 2012, 101(21): 0-214103.

(31)  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 acompressed electron layer during the hole-boring stage in a sharp-front laserinteraction region , Physical Review Special Topics - Accelerators and Beams,2012, 15(8): 0-081302.

(32)  Wang, W. P.; Shen, B. F.*; Zhang, X. M.;Ji, L. L.; Wen, M.; Xu, J. C.; Yu, Y. H.; Li, Y. L.; Xu, Z. Z.*; Efficientacceleration of monoenergetic proton beam by sharp front laser pulse , Physicsof Plasmas, 2011, 18(1): 0-013103.

(33)  Wang, W. P.; Wang, W. T.; Zhang, X. M.;Ji, L. L.; Wang, F. C.; Wen, M.; Xu, J. C.; Cai, Y.; Xu, Y.; Wang, C.; Leng, Y.X.; Liu, J. S.; Li, R. X.; Shen, B. F.*; Xu, Z. Z.*; Angular distribution ofemitted electrons due to intense p-polarized laser foil interaction , Physicsof Plasmas, 2010, 17(3): 0-033101.

(34)  Wang Wen-Peng; Li Hong-Yun; WangShu-Bao; Lin Sheng-Lu*; Short-ranged potential effects on the recurrencespectra of lithium M=1 atoms in parallel electric and magnetic fields, ChinesePhysics B, 2008, 17(3): 0-801.

(35)  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, 2016, 108(21):0-214102.

(36)  Li, Shasha; Shen, Baifei*; Wang, Wenpeng*; Bu, Zhigang; Zhang,Hao; Zhang, Hui; Zhai, Shuhua; Diffraction of relativistic vortex harmonicswith fractional average orbital angular momentum , Chinese Optics Letters,2019, 17 (5): 0-050501.

(37)  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 productionin the QED regime , Physics of Plasmas, 2018, 25(2): 0-023107.

(38)  Ji, Liangliang; Shen, Baifei*; Zhang, Xiaomei; Wang, Fengchao; Jin, Zhangying;Wen, Meng; Wang, Wenpeng; Xu, Jiancai; Comment on "Generating High-CurrentMonoenergetic Proton Beams by a Circularly Polarized Laser Pulse in the Phase-StableAcceleration Regime" , Physical Review Letters, 2009, 102(23): 0-239501.

(39)  Jin Zhang-Ying*; Shen Bai-Fei; Zhang Xiao-Mei; Wang Feng-Chao; Wen Meng;Ji Liang-Liang; Xu Jian-Cai; Wang Wen-Peng; Proton Acceleration with Nano-ScaleMicro-Structured Target by Circularly Polarized Laser Pulse, Chinese Physics Letters,2009, 26(12): 0-125204.

(40)  Wang, Fengchao; Shen, Baifei*; Zhang, Xiaomei; Jin, Zhangying; Wen, Meng;Ji, Liangliang; Wang, Wenpeng; Xu, Jiancai; Yu, M. Y.; Cary, J.;High-energy monoenergetic proton bunch from laser interaction with a complex target,Physics of Plasmas, 2009, 16(9): 0-093112.

(41)  Zhang, Xiaomei*; Shen, Baifei*; Ji, Liangliang; Wang, Wenpeng;Xu, Jiancai; Yu, Yahong; Wang, Xiaofeng; Instabilities in interaction of circularlypolarized laser pulse and overdense target, Physics of Plasmas, 2011, 18(7): 0-073101.

(42)  Ji, Liangliang; Shen, Baifei*; Zhang, Xiaomei; Wen, Meng; Xia, Changquan;Wang, Wenpeng; Xu, Jiancai; Yu, Yahong; Yu, Mingyang; Xu, Zhizhan; Ultra-intensesingle attosecond pulse generated from circularly polarized laserinteractingwith overdense plasma , Physics of Plasmas, 2011, 18(8): 0-083104.

(43)  Yi, Longqing; Shen, Baifei*; Ji, Liangliang; Zhang, Xiaomei; Wang,Wenpeng; Xu, Jiancai; Yu, Yahong; Wang, Xiaofeng; Shi, Yin; Xu, Zhizhan;Proton acceleration by plasma wakefield driven by an intense proton beam ,Laser and Particle Beams, 2013, 31(3): 427-438. (期刊论文)

(44)  Yi, Longqing; Shen, Baifei*; Lotov, Konstantin; Ji, Liangliang;Zhang, Xiaomei; Wang, Wenpeng; Zhao, Xueyan; Yu, Yahong; Xu, Jiancai;Wang, Xiaofeng; Shi, Yin; Zhang, Lingang; Xu, Tongjun; Xu, Zhizhan; Scheme forproton-driven plasma-wakefield acceleration of positively charged particles ina hollow plasma channel , Physical Review Special Topics - Accelerators andBeams, 2013, 16(7): 0-071301.

(45)  Shi, Yin; Shen, Baifei*; Zhang, Xiaomei; Wang, Wenpeng; Ji, Liangliang;Zhang, Lingang; Xu, Jiancai; Yu, Yahong; Zhao, Xueyan; Wang, Xiaofeng; Yi,Longqing; Xu, Tongjun; Xu, Zhizhan; Ultra-bright, ultra-broadband hard x-raydriven by laser-produced energetic electron beams , Physics of Plasmas, 2013, 20(9):0-093102.

(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 toTeV regime , Scientific Reports, 2014, 4: 0-4171.

(47)  Shi, Yin; Shen, Baifei*; Zhang, Lingang; Zhang, Xiaomei; Wang,Wenpeng; Xu, Zhizhan; Light Fan Driven by a Relativistic Laser Pulse ,Physical Review Letters, 2014, 112(23): 0-235001.

(48)  Wang Xiaofeng; Shen Baifei*; Zhang Xiaomei; Ji Liangliang; Wang Wenpeng;Zhao Xueyan; Xu Jiancai; Yu Yahong; Yi Longqing; Shi Yin; Xu Tongjun; ZhangLingang; Light pressure acceleration with frequency-tripled laser pulse,Physics of Plasmas, 2014, 21(8): 0-083102.

(49)  Zhang Lingang; Shen Baifei*; Zhang Xiaomei*; Huang Shan; Shi Yin;Liu Chen; Wang Wenpeng; Xu Jiancai; Pei Zhikun; Xu Zhizhan; Deflectionof a Reflected Intense Vortex Laser Beam , Physical Review Letters, 2016,117(11): 0-113904.

(50)  Zhang H.; Shen B. F.*; Wang W. P.; Zhai S. H.; Li S. S.; LuX. M.; Li J. F.; Xu R. J.; Wang X. L.; Liang X. Y.; Leng Y. X.; Li R. X.*; XuZ. Z.; Coll isionless Shock Acceleration of High-Flux Quasimonoenergetic ProtonBeams Driven by Circularly Polarized Laser Pulses , Physical Review Letters,2017, 119(16): 0-164801.

(51)  Ji, L. L.; Shen, B. F.*; Zhang, X. M.; Wang, F. C.; Jin, Z. Y.; Xia,C. Q.; Wen, M.; Wang, W. P.; Xu, J. C.; Yu, M. Y.; Generating Quasi-Single-CycleRelativistic Laser Pulses by Laser-Foil Interaction, Physical Review Letters,2009, 103(21): 0-215005.

(52)  Zhang Xiaomei; Shen Baifei*; Shi Yin; Wang Xiaofeng; Zhang Lingang; WangWenpeng; Xu Jiancai; Yi Longqiong; Xu Zhizhan; Generation of Intense High-OrderVortex Harmonics , Physical Review Letters, 2015, 114(17): 0-173901.

(53)  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 ofanout-of-equilibrium plasma at the highest compression , Physics Letters A,2019, 383(19): 2285-2289.

(54)  Xu, Jiancai; Shen, Baifei*; Zhang, Xiaomei; Wen, Meng; Ji,Liangliang; Wang, Wenpeng; Yu, Yahong; Nakajima, Kazuhisa; Generation ofa large amount of energetic electrons in complex-structure bubble , New Journalof Physics, 2010, 12: 0-023037.

(55)  Wen, Meng; Shen, Baifei*; Zhang, Xiaomei; Wang, Fengchao; Jin, Zhangying;Ji, Liangliang; Wang, Wenpeng; Xu, Jiancai; Nakajima, Kazuhisa; Controlledelectron acceleration in the bubble regime by optimizing plasma density, NewJournal of Physics, 2010, 12: 0-045010.

(56)  Zhang, Xiaomei; Shen, Baifei; Ji, Liangliang; Wang, Fengchao; Wen, Meng;Wang, Wenpeng; Xu, Jiancai; Yu, Yahong; Effects of pulse duration and arealdensity on ultrathin foil acceleration , Physics of Plasmas, 2010, 17(6):0-063107.

(57)  Ji, L. L.; Shen, B. F.*; Li, D. X.; Wang, D.; Leng, Y. X.; Zhang, X.M.; Wen, M.; Wang, W. P.; Xu, J. C.; Yu, Y. H.; RelativisticSingle-Cycled Short-Wavelength Laser Pulse Compressed from a Chirped PulseInduced by Laser-Foil Interaction , Physical Review Letters, 2010, 105(2):0-025001.

(58)  Wen, Meng*; Shen, Baifei*; Zhang, Xiaomei; Ji, Liangliang; Wang, Wenpeng;Xu, Jiancai; Yu, Yahong; Generation of high charged energetic electrons byusing multiparallel laser pulses , Physics of Plasmas, 2010, 17(10): 0-103113.

(59)  Xu, Jiancai; Shen, Baifei*; Zhang, Xiaomei; Wen, Meng; Ji,Liangliang; Wang, Wenpeng; Yu, Yahong; Li, Yuelin; Overloading effect ofenergetic electrons in the bubble regime of laser wakefield acceleration ,Physics of Plasmas, 2010, 17(10): 0-103108.

(60)  Zhang, Xiaomei; Shen, Baifei; Ji, Liangliang; Wang, Fengchao; Wen, Meng;Wang, Wenpeng; Xu, Jiancai; Yu, Yahong; Ultrahigh energy proton generationin sequential radiation pressure and bubble regime , Physics of Plasmas, 2010,17(12): 0-123102.

(61)  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, 2012, 19(5): 0-053103.

(62)  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 indouble-sided relativistic laser-foil interaction , Physics of Plasmas, 2013,20(3): 0-033109.

(63)  Xu, Y.*; Guo, X. Y.; Huang, Y. S.; Li, Y. Y.; Lu, X. M.; Wang, C.; Liu,Y. Q.; Wang, W. P.; Zhang, H.; Leng, Y. X.*; Liang, X. Y.; Shen, B. F.; Li,R. X.*; Xu, Z. Z.; Enhancement of temporal contrast in a femtosecond petawattTi:sapphire laser , Laser Physics Letters, 2013, 10(9): 0-095302.

(64)  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.; Collisionlessshocks driven by 800 nm laser pulses generate high-energy carbon ions , Physicsof Plasmas, 2015, 22(1): 0-013113.

(65)  Zhang Lingang; Shen Baifei*; Xu Jiancai*; Ji Liangliang; ZhangXiaomei; 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, 2015, 22(2): 0-023101.

(66)  Wang Xiaofeng; Shen Baifei*; Zhang Xiaomei*; Wang Wenpeng; XuJiancai; Yi Longqing; Shi Yin; High energy protons generation by two sequentiallaser pulses , Physics of Plasmas, 2015, 22(4): 0-043106.

(67)  Pei Zhikun; Shen Baifei*; Zhang Xiaomei*; Wang Wenpeng; ZhangLingang; Yi Longqing; Shi Yin; Xu Zhizhan; Cascaded radiation pressureacceleration , Physics of Plasmas, 2015, 22(7): 0-073113.

(68)  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 protonacceleration by collisionless electrostatic shock , Physics of Plasmas, 2015,22(7): 0-073101.

(69)  Liu Chen; Shen Baifei*; Zhang Xiaomei*; Shi Yin; Ji Liangliang; WangWenpeng; Yi Longqing; Zhang Lingang; Xu Tongjun; Pei Zhikun; Xu Zhizhan;Generation of gamma-ray beam with orbital angular momentum in the QED regime ,Physics of Plasmas, 2016, 23(9): 0-093120.

(70)  Pei Zhikun; Shen Baifei*; Shi Yin; Ji Liangliang; Wang Wenpeng;Zhang Xiaomei; Zhang Lingang; Xu Tongjun; Liu Chen; Quasi-stationary fluidtheory of the hole-boring process , Physics of Plasmas, 2016, 23(4): 0-043107.

(71)  Liu Chen; Shen Baifei*; Zhang Xiaomei; Ji Liangliang; WangWenpeng; Xu Jiancai; Zhao Xueyan; Yi Longqing; Shi Yin; Zhang Lingang; XuTongjun; Pei Zhikun; Xu Zhizhan; Generation of ultra-intense gamma-ray train byQED harmonics , Physics of Plasmas, 2016, 23(8): 0-083120.

(72)  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 ofthin foil with two laser pulses , Physics of Plasmas, 2014, 21(2): 0-024502.

(73)  Ji Liangliang; Shen Baifei; Zhang Xiaomei; Wang Wenpeng; YuYahong; Wang Xiaofeng; Yi Longqing; Shi Yin; Plasma Approach for Generating Ultra-IntenseSingle Attosecond Pulse , Plasma Science and Technology, 2012, 14(10): 859-863.