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Articles


1.        Wang, K.D; Zhu, K; Easton, Matthew J ; Li, Y.J; Wang, K; Xie, X.C; Lan, H.Y; Cai, S.X; Wang, H; Ge, H.L; Zhu, T.R; Li, J; Zhang, C.J; Zhao, X.Y; Lin, C; Yan, X.Q; Beam distribution homogenization design for laser-driven proton therapy accelerator, Nuclear instruments & methods in physics research, Volume 1040, 1 October 2022, 167196.

2.        Pang, Ruyu;Wang, Yunliang;Yan, Xueqing;Eliasson, Bengt; Ultrahigh-Amplitude Isolated Attosecond Pulses Generated in the Transmission Regime from Ultrathin Foil, Physical Review Applied, Volume 18, Number 2, 0240242022).

3.        寿寅任, 潘卓, 曹正轩, 王大辉, 王鹏杰, 刘建波, 梅竹松, 孔德锋,赵研英, 颜学庆, 马文君基于碳纳米管泡沫的高效宽谱极紫外辐射, 光学学报, 42 11,  11340212022).

4.        Jintao Han, Chunyang Lu, Mengzhu Shen, Xiaoyi Sun, Xiaodong Mo, and Gen Yang*. Fast, Reusable, Cell Uniformly Distributed Membrane Filtration Device for Separation of Circulating Tumor Cells, ACS Omega DOI: 10.1021/acsomega.2c01153, 2022

5.        Yi-Lin Xu, Dong-Yu Li, Ya-Dong Xia, Si-Yuan Zhang, Min-Jian Wu, Tong Yang, Jun-Gao Zhu, Hao Cheng, Chuan-Ke Wang, Chen Lin, Ting-Shuai Li and Xue-Qing Yan, Analysis of electromagnetic pulses generated from ultrashort laser irradiation of solid targets at CLAPA,Chinese Physics B, Volume 31, Number 2,0252052022).

6.        J. Cai, Y. R. Shou, L. Q. Han,R. X. Huang, Y. X. Wang, Z. H. Song, Y. X. Geng, J. Q. Yu and X. Q. Yan , High efficiency and collimated terahertz pulse from ultra-short intense laser and cone target, Optics Letters, Volume 47, Number 1,  071658(2022) .

7.        Danqing Zhou Dongyu Li Yuhan Chen Minjian WuTong YangHao Cheng Yuze LiYi Chen Yue LiYixing GengYanying ZhaoChen Lin Xueqing Yan and Ziqiang Zhao , Preparation of graphene on SiC by laser-accelerated pulsed ion beams , Chinese Physics B, Volume 30, Number 11, 116106 (2021) .

8.        P. Wang, Z. Gong, S.G. Lee, Y. Shou, Y. Geng, C. Jeon, I. Kim, H. .Lee, J. Yoon, J. Sung, S. K. Lee, D. Kong, J. Liu, Z. Mei, Z. Cao, Z. Pan, I. W. Choi*, X. Yan*, C. H. Nam*, and W. Ma*, Super-Heavy Ions Acceleration Driven by Ultrashort Laser Pulses at Ultrahigh Intensity, Physical Review X, 11, 021049 (2021).

9.        W. Hong*, S. He, J. Teng, Z. Deng, Z. Zhang, F. Lu, B. Zhang, B. Zhu, Z. Dai, B. Cui, Y. Wu, D. Liu, W. Qi, J. Jiao, F. Zhang, Z. Yang, F. Zhang, B. Bi, X. Zeng, K. Zhou, Y. Zuo, X. Huang, N. Xie, Y. Guo, J. Su, D. Han, Y. Mao, L. Cao, W. Zhou, Y. Gu, F. Jing, B. Zhang, H. Cai, M. He, W. Zheng, S. Zhu, W. Ma, D. Wang, Y. Shou, X. Yan, B. Qiao, Y. Zhang, C. Zhong, X. Yuan, and W. Wei, Commissioning experiment of the high-contrast SILEX-II multi-petawatt laser facility, Matter and Radiation at Extremes, 6(6), 064401 (2021).

10.    M.J. Easton, K. Zhu*, K. Wang, M. Wu, C. Lin, and X. Yan, Emittance growth due to energy spread in a laser-driven proton beamline, Results in Physics, 29, 104779 (2021).

11.    C. Xiao, Z. Xu, H. Lu*, J. Liu, C. Xie, Y. Zhao, Y. Geng, S. Huang, S. Zhao, J. Zhu, M. Lai, H. Zhang, H. Zhou, C. Zhou, and X. Yan*, Design of a compact electron radiography system with electron source from laser wakefield accelerator, AIP Advances, 11(4), 045030 (2021).

12.    X.Z. Wu, Z. Gong, Y.R. Shou, Y.H. Tang, J.Q. Yu, G. Mourou, and X.Q. Yan*, Efficiency enhancement of ion acceleration from thin target irradiated by multi-PW few-cycle laser pulses, Physics of Plasmas, 28(2), 023102 (2021).

13.    P. Wang, G. Qi, Z. Pan, D. Kong, Y. Shou, J. Liu, Z. Cao, Z. Mei, S. Xu, Z. Liu, S. Chen, Y. Gao, J. Zhao, and W. Ma*, Fabrication of large-area uniform carbon nanotube foams as near-critical-density targets for laser-plasma experimentsHigh Power Laser Science and Engineering, 9, 29 (2021).

14.    P. Rubovič*, A. Bonasera, P. Burian, Z. Cao, C. Fu, D. Kong, H. Lan, Y. Lou, W. Luo, C. Lv, Y. Ma, W. Ma*, Z. Ma, L. Meduna, Z. Mei, Y. Mora, Z. Pan, Y. Shou, R. Sýkora, M. Veselský, P. Wang, W. Wang, X. Yan, G. Zhang, J. Zhao, Y. Zhao, and J. Žemlička, Measurements of D–D fusion neutrons generated in nanowire array laser plasma using Timepix3 detector, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 985, 164680 (2021).

15.    D.Y. Li, T. Yang, M.J. Wu, H. Chen, Y.Z. Li, Y.D. Xia, Y. Yan, Y.X. Geng, Y.Y. Zhao, C. Lin*, and X.Q. Yan*. Manipulation of laser-accelerated proton beam spatial distribution by laser machined microstructure targets. Physics of Plasmas, 28(11), 113101 (2021).

16.    D.Y. Li, X.H. Xu, T. Yang, M.J. Wu, Y.F. Zhang, H. Cheng, X.Y. Hu, Y.X. Geng, J.G. Zhu, Y.Y. Zhao, K. Zhu, W.J. Ma, C.Lin*, and X.Q. Yan. Influence factors of resolution in laser accelerated proton radiography and image deblurring. AIP Advances, 11(8), 085316 (2021).

17.    Tong Yang, Hao Cheng, Yang Yan, Minjian Wu, Dongyu Li, Yuze Li, Yadong Xia, Chen Lin* and Xueqing Yan, Designing of active plasma lens for focusing laser-plasma-accelerated pulsed proton beams, Review Accelerators and Beams, 24, 031301 (2021).

18.    Y. Shou, R. Hu, Z. Gong, J. Yu, J. Chen, G. Mourou, X. Yan, and W. Ma*, Cascaded Generation of a Sub-10-Attosecond Half-Cycle Pulse, arXiv:2010.05724. New Journal of Physics, 23, 053003 (2021).

19.    J. Han, Z. Mei, C. Lu, J. Qian, X. Sun, Y. Liang, Z. Pan, D. Kong, S. Xu, Z. Liu, Y. Gao, G. Qi, Y. Shou, S. Chen, Z. Cao, Y. Zhao, C. Lin, Y. Zhao, Y. Geng, J. Chen, X. Yan*, and W. Ma*, G. Yang*, Ultra-high dose rate FLASH irradiation induced radio-resistance of normal fibroblast cells can be enhanced by hypoxia and mitochondrial dysfunction resulting from loss of cytochrome c, Cell and Developmental Biology, 9, 672929 (2021).

20.    G. Yang*, C. Lu, Z. Mei, X. Sun, J. Han, J. Qian, Y. Liang, Z. Pan, D. Kong, S. Xu, Z. Liu, Y. Gao, G. Qi, Y. Shou, S. Chen, Z. Cao, Y. Zhao, C. Lin, Y. Zhao, Y. Geng, W. Ma*, and X. Yan*, Association of cancer stem cell radio-resistance under ultra-high dose rate FLASH irradiation with lysosome-mediated autophagy, Cell and Developmental Biology, 9, 672693 (2021).

21.    W. Ma*, Z. Liu, P. Wang, J. Zhao, and X.Yan, A review on the experimental progresses in laser-driven high-energy proton acceleration and new acceleration schemes (invited review), Acta Physica Sinica, 70(8), 084102 (2021).

22.    Y. Tang, Z. Gong, J. Yu, Y. Shou, and X. Yan*, Radiative polarization dynamics of relativistic electrons in an intense electromagnetic field, Physical Review A, 103(4), 042807 (2021).

23.    C. Xiao, Z. Xu, H. Lu*, J. Liu, C. Xie, Y. Zhao, Y. Geng, S. Chen, C.E. Chen, and X. Yan*, Direct Imaging with Hundreds of MeV Electron Bunches from Laser Wakefield Acceleration, Physica Status Solidi (A) Applications and Materials Science, 218(1), 2000371 (2021).

24.    Y. Shou, D. Kong, P. Wang, Z. Mei, Z. Cao, Z. Pan, Y. Li, S. Xu, G. Qi, S. Chen, J. Zhao, Y. Zhao, C. Fu, W. Luo, G. Zhang, X. Yan, and W. Ma*, High-efficiency water-window x-ray generation from nanowire array targets irradiated with femtosecond laser pulses, Optics Express, 29 (4), 5427-36 (2021).

25.    Wang, K.D., Zhu, K., Easton, M.J., Li, Y.J., Lin, C., Yan, X.Q. Achromatic beamline design for a laser-driven proton therapy accelerator Physical Review Accelerators and Beams, 23 (11) .111302(2020)

26.    Wu, M., Zhu, J., Li, D., Yang, T., Liao, Q., Geng, Y., Xu, X., Li, C., Shou, Y., Zhao, Y., Lu, Y., Lu, H., Ma, W., Lin, C., Zhu, K., Yan, X. Collection and focusing of laser accelerated proton beam by an electromagnetic quadrupole triplet lens.Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 955,163249,(2020);

27.    J.G. Zhu, M.J. Wu, K. Zhu, Y.X. Geng, Q. Liao, D.Y. Li, T. Yang, M.J. Easton, C.C. Li, X.H. Xu, Y.R. Shou, J.Q. Yu, Z. Gong, Y.Y. Zhao, P.J. Wang, D.H. Wang, L. Tao, C.E. Chen, W.J. Ma, H.Y. Lu, T. Tajima, G. Mourou, C. Lin*, and X.Q. Yan*. Demonstration of tailored energy deposition in a laser proton accelerator. December Review Accelerators and Beams, 23(12), 121304, (2020).

28.    Yixing Geng*, Dongyu Li, Siyuan Zhang, Minjian Wu, Tong Yang, Dan Wang, Lixin Yan, Jungao Zhu, Xiyao Hu, Yanying Zhao, Xueqing Yan, and Chen Lin*. Strong enhancement of coherent terahertz radiation by target ablation using picosecond laser pulses. Physics of Plasmas, 27(11), 113104 (2020).

29.    Xie,C.Z.,Xiao,C.F.,Xu,Z.Y.,Liu,J.X.,Gong,Z.,Lu,H.G.,Huang,S.L.Chen,M.,Xu,T.Q.Wang,K.D.,Yan,X.Q., Lu,H.Y.Design of a compact short pulse positron source based on laser plasma accelerators, Physics of Plasmas,27(10),103105,(2020);

30.    Wu,M.J.,Li,D.Y.,Zhu,J.G.,Yang,T.,Hu,X.Y.,Geng,Y.X.,Zhu,K.,Easton,M.J.,Zhao,Y.Y.,Zhang,A.L.,Lu,H.Y.,Ma,W.J.,Lin,C.,Yan,X.Q.Emittance measurement along transport beam line for laser driven protons, Physical Review Accelerators and Beams, 23(3),031302,(2020);

31.    Wu,X.,Shou,Y.,Gong,Z.,Zhao,Y.,Zhu,K.,Yang,G.,Lu,H.,Lin,C.,Ma,W.,Chen,J.,Yan,X.Laser-driven ion acceleration: development and potential applications [激光离子加速研究与应用展望]Qiangjiguang Yu Lizishu/High Power Laser and Particle Beams,32(9),092002,(2020).

32.    Xia,Y.,Li,D.,Zhang,S.,Wu,M.,Yang,T.,Geng,Y.,Zhu,J.,Xu,X.,Li,C.,Wang,C.,Wang,F.,Lin,C.,Li,T.,Yan,X.Enhancing electromagnetic radiations by a pre-ablation laser during laser interaction with solid target, Physics of Plasmas,27(3),032705,(2020);

33.    Wang,D.,Shou,Y.,Wang,P.,Liu,J.,Mei,Z.,Cao,Z.,Zhang,J.,Yang,P.,Feng,G.,Chen,S.,Zhao,Y.,Schreiber,J.,Ma,W.Laser-induced damage thresholds of ultrathin targets and their constraint on laser contrast in laser-driven ion acceleration experiments, High Power Laser Science and Engineering,e41,(2020);

34.    Xu,Z.Y.,Xiao,C.F.,Lu,H.Y.,Hu,R.H.,Yu,J.Q.,Gong,Z.,Shou,Y.R.,Liu,J.X.,Xie,C.Z.,Chen,S.Y.,Lu,H.G.,Xu,T.Q.,Li,R.X.,Hafz,N.,Li,S.,Najmudin,Z.,Rajeev,P.P.,Neely,D.,Yan,X.Q.New injection and acceleration scheme of positrons in the laser-plasma bubble regime, Physical Review Accelerators and Beams, 23(9),091301,(2020);

35.    Hu,B.S.,Wu,Q.,Yuan,Q.,Ma,Y.Z.,Yan,X.Q.,Xu,F.R.Nuclear multipole responses from chiral effective field theory interactions, Physical Review C,101(4), 044309,(2020);

36.    Gong,Z.,Shou,Y.,Tang,Y.,Yan,X.Energetic spin-polarized proton beams from two-stage coherent acceleration in laser-driven plasma, Physical Review E, 102 (5),053212,(2020);

37.    Zhang,S.,Yu,J.,Shou,Y.,Gong,Z.,Li,D.,Geng,Y.,Wang,W.,Yan,X.,Lin,C.Terahertz radiation enhanced by target ablation during the interaction of high intensity laser pulse and micron-thickness metal foi, Physics of Plasmas,27(2),023101,(2020);

38.    Li,A.,Yu,J.-Q.,Chen,Y.-Q.,Yan,X.-Q.Numerical method of electron-positron pairs generation in photon-photon collider [光子对撞机产生正负电子对的数值方法], Wuli Xuebao/Acta Physica Sinica,69 (1),019501,(2020);

39.    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, Phys. Plasmas 27, 023101 (2020);

40.    Yadong Xia, Dongyu Li, Siyuan Zhang, Minjian Wu, Tong Yang, Yixing Geng, Jungao Zhu, Xiaohan Xu, Chengcai Li, Chuanke Wang, Feng Wang, Chen Lin, Tingshuai Li, and Xueqing YanEnhancing electromagnetic radiations by a pre-ablation laser during laser interaction with solid target Phys. Plasmas 27, 032705 (2020).

41.    Y. X. Geng, D. Wu, W. Yu, Z. M. Sheng, S. Fritzsche, Q. Liao, M. J. Wu,X. H. Xu, D. Y. Li, W. J. Ma, H. Y. Lu, Y. Y. Zhao, X. T. He, J. E. Chen,C. Lin,and X. Q. Yan, Proton beams from intense laser-solid interaction: Effects of the target materialsMatter Radiat. Extremes 5, 064402 (2020).

42.    Minjian Wu, Jungao Zhu, Dongyu Li, Tong Yang, Qing Liao, Yixing Geng, Xiaohan Xu, Chengcai Li, Yinren Shou, Yanying Zhao, Yuanrong Lu, Haiyang Lu, Wenjun Ma, Chen Lin*, Kun Zhu† and Xueqing Yan. Collection and focusing of laser accelerated proton beam by an electromagnetic quadrupole triplet lens,Nuclear Inst. and Methods in Physics Research, A 955 (2020) 163249.

43.    Z. Gong, F. Mackenroth, T. Wang, X. Q. Yan, T. Toncian, and A. V. Arefiev. "Direct laser acceleration of electrons assisted by strong laser-driven azimuthal plasma magnetic fields" Phys. Rev. E 102, 013206 (2020)

44.    Zheng Gong, Yinren Shou, Yuhui Tang, Ronghao Hu, Jinqing Yu, Wenjun Ma, Chen Lin, and Xueqing Yan. "Proton sheet crossing in thin relativistic plasma irradiated by a femtosecond petawatt laser pulse" Phys. Rev. E 102, 013207 (2020)

45.    S. Zhang, J. Yu, Y. Shou, Z. Gong, D. Li, Y. Geng, W. Wang, X. Yan, andC. Lin, “Terahertz radiation enhanced by target ablation during the interac-tion of high intensity laser pulse and micron-thickness metal foil,” Physicsof Plasmas27, 023101 (2020)

46.     J. G. Zhu, M. J. Wu, Q. Liao, Y. X. Geng, K. Zhu, C. C. Li, X. H. Xu, D. Y. Li, Y. R. Shou, T. Yang, P. J. Wang, D. H. Wang, J. J. Wang, C. E. Chen, X. T. He, Y. Y. Zhao, W. J. Ma, H. Y. Lu, T. Tajima, C. Lin, and X. Q. Yan, Experimental demonstration of a laser proton accelerator with accurate beam control through image-relaying transport, PHYSICAL REVIEW ACCELERATORS AND BEAMS 22, 061302 (2019)

47.    Y. H. Tang, Z. Gong, J. Q. Yu, Y. R. Shou, and X. Q. Yan, Deflection of a reflected intense circularly polarized light beam induced by asymmetric radiation pressure, Phys. Rev. E 100, 063203, 2019

48.    Tang, Y. H., Gong, Z., Yu, J. Q., Shou, Y. R., and Yan, X. Q. Deflection of a reflected intense circularly polarized light beam induced by asymmetric radiation pressure. Physical Review E, 100(6), 063203. (2019).

49.    Y. R. Shou, D. H. Wang, P. J. Wang, J. B. Liu, Z. X. Cao, Z. S. Mei, Y. X. Geng, J. G. Zhu, Q. Liao, Y. Y. Zhao, K. Zhu, C. Lin, H. Y. Lu, W. J. Ma and X. Q. Yan, Nucl Instrum Meth A 927, 236-239 (2019).

50.    J. Szerypo, W. Ma, G. Bothmann, D. Hahner, M. Haug, P. Hilz, C. Kreuzer, R. Lange, S. Seuferling, M. Speicher, F. Stehr, S. Stork, P. G. Thirolf, J. Schreiber and H. F. Wirth, Matter Radiat Extrem 4 (3) (2019).

51.    X. H. Xu, Q. Liao,M. J. Wu,Y. X. Geng,D. Y. Li, J. G. Zhu, C. C. Li,R. H. Hu,Y. R. Shou,Y. H. Chen,H. Y. Lu,W. J. Ma,Y. Y. Zhao,K. Zhu,C. Lin*,and X. Q. Yan*Detection and analysis of laser driven proton beams by calibrated Gafchromic HD-V2 and MD-V3 radiochromic fifilms Rev. Sci. Instrum. 90, 033306 (2019); doi: 10.1063/1.5049499

52.    Z Gong , A P L Robinson*, X Q Yan* and A V Arefifiev*,Highly collimated electron acceleration by longitudinal laser fields in a hollow-core target, Plasma Phys. Control. Fusion 61 (2019) 035012 (13pp)

53.    Z. Gong ,R. H. Hu,J. Q. Yu,Y. R. Shou,A. V. Arefiev,and X. Q. Yan*,Radiation rebound and quantum splash in electron-laser collisions, PHYSICAL REVIEW ACCELERATORS AND BEAMS 22, 093401 (2019)

54.    Jianbo Liu,Jinqing Yu,Yinren Shou,Dahui Wang, Ronghao Hu,Yuhui Tang,Pengjie Wang,Zhengxuan Cao,Zhusong Mei,Chen Lin,Haiyang Lu,Yanying Zhao,Kun Zhu,Xueqing Yan,and Wenjun Ma,Generation of bright c-ray/hard x-ray flash with intense femtosecond pulses and double-layer targets, Phys. Plasmas 26, 033109 (2019)

55.    W. J. Ma, I Jong Kim, J. Q. Yu, Il Woo Choi, P. K. Singh, Hwang Woon Lee, Jae Hee Sung, Seong Ku Lee, C. Lin, Q. Liao, J. G. Zhu, H. Y. Lu, B. Liu, H. Y. Wang, R. F. Xu, X. T. He, J. E. Chen, M. Zepf, J. Schreiber, X. Q. Yan*, and Chang Hee Nam*, Laser acceleration of highly energetic carbon ions using a double-layer target composed of slightly underdense plasma and ultrathin foil,PHYSICAL REVIEW LETTERS 122, 014803 (2019)

56.    J. Q. Yu, H. Y. Lu, T. Takahashi, R. H. Hu, Z. Gong, W. J. Ma, Y. S. Huang, C. E. Chen, and X. Q. Yan*, Creation of electron-positron pairs in photon-photon collisions driven by 10-PW laser pulses. PHYSICAL REVIEW LETTERS 122, 014802 (2019)

57.    Jinqing Yu, Wenjun Ma, Chen Lin, and Xueqing Yan*, Shaping of ion energy spectrum due to ionization in ion acceleration driven by an ultra-short pulse laser. Plasma Phys. Control. Fusion 60, 115007 (2018)

58.    Yi-Xing Geng, Qing-Liao, Yin-ren Shou, Jun-gao Zhu, Xiao-han Xu, Min-jian Wu, Pengjie Wang, Dong-yu Li, Tong-Yang, Rong-hao Hu, Da-hui Wang, Yan-ying Zhao, Wen-jun Ma, Hai-yang Lu, Zhong-xi Yuan, Chen-Lin, Xue-qing Yan, Chinese Physics Letters 35, 092901 (2018)

59.    Yin,X.J.,Yuan,Y.J.,Xia,J.W.,He,Y.,Zhao,H.W.,Du,H.,Li,Z.S.,Li,X.N.,Wang,K.D.,Kong,Q.Y.,Yang,Y.Q.,Jin,P.,Qian,C.,Ma,L.Z.,Wu,J.X.,Xu,Z.,Sun,L.T.,Zhang,W.,Zhang,X.Z.,Meng,J.,Xie,W.J.,Zhou,Z.Z.,Yao,Q.G.,Wang,S.M.,Xu,X.W.,Wang,H.N.,Zhang,Y.,Lu,Y.R.,Zhu,K.,Liu,G.,Yan,X.Q.,Gao,S.L.,Wang,Z.,Chen,J.E.Development of CW heavy ion LINAC at IMP, Proceedings of the 29th Linear Accelerator Conference, LINAC 2018, pp. 326-328.

60.    J. Q. Yu, R. H. Hu, Z. Gong, A. Ting, Z. Najmudin, D. Wu, H. Y. Lu, W. J. Ma, and X. Q. Yan*, The generation of collimated γ-ray pulse from the interaction between 10 PW laser and a narrow tube target, Appl. Phys. Lett. 112, 204103 (2018)

61.    Dahui Wang, Yinren Shou, Pengjie Wang, Jianbo Liu, Chengcai Li, Zheng Gong, Ronghao Hu, Wenjun Ma, Xueqing Yan*, Enhanced proton acceleration from an ultrathin target irradiated by laser pulses with plateau ASE, Scientific Reports, 8 2536 (2018).

62.    Z Gong, R H Hu, H Y Lu, J Q Yu, D H Wang, E G Fu, C E Chen, X T He and X Q Yan*, Brilliant GeV gamma-ray flash from inverse Compton scattering in the QED regime, Plasma Physics and Controlled Fusion, Volume 60, Number 4 (2018)

63.    Q. Liao, M. J. Wu, Z. Gong, Y. X. Geng, X. H. Xu, D. Y. Li, Y. R. Shou, J. G. Zhu, C. C. Li, M. Yang, T. S. Li, H. Y. Lu, W. J. Ma, Y. Y. Zhao, C. Lin, and X. Q. Yan*, Enhanced laser proton acceleration by target ablation on a femtosecond laser system, Physics of Plasmas 25, 063109 (2018)

64.    Dahui Wang, Wenjun Ma, Jianhui Bin, Klaus Alinger, Yinren Shou, Pengjie Wang, Jianbo Liu, Jungao Zhu, Zhengxuan Cao, Zhusong Mei, Hongyong Wang, Haiyang Lu, Chen Lin, Yanying Zhao. Joerg Schreiber, Xueqing Yan*, Single-shot laser-induced damage threshold of free-standing nanometer-thin diamond-like carbon foils, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 436, 18-21 (2018)

65.    Bilayer nanoporous copper films with various morphology features synthesized by one-step dealloying, Z.Y.Hu, P.P.Wang,E.G.Fu,X.J.WangbX.Q.Yan,P.Xu,Z.M.Wu,Y.B.Zhao,Y.X.Liang Journal of Alloys and Compounds, Volume 754, 25 July 2018, Pages 26-31

66.    非真空传输的高效交叉偏振滤波设计与产生,李荣凤, 薛兴泰, 赵研英, 耿易星, 卢海洋, 颜学庆, 陈佳洱,物理学报 Vol.66 Issue(15) 2017

67.    激光尾波场驱动准连续小角度电子束研究进展,李荣凤, 高树超, 肖朝凡, 徐智怡, 薛兴泰, 刘建波, 赵研英, 陈佳洱, 卢海洋, 颜学庆,物理学报 Vol.66 Issue(15) 2017

68.    光谱调制对放大器脉冲时域特性的影响,薛兴泰; 赵研英; 李荣凤; 耿易星; 卢海洋; 颜学庆,中国激光 44 5期(pp:501001-12017

69.    色散对双晶交叉偏振滤波输出特性的影响,耿易星,李荣凤,赵研英,王大辉,卢海洋,颜学庆 ,物理学报,2017.1.949~53

70.    Z. Gong, R. H. Hu, Y. R. Shou, B. Qiao, C. E. Chen, X. T. He, S. S. Bulanov, T. Zh. Esirkepov, S. V. Bulanov, and X. Q. Yan* ,High-efficiency γ -ray flash generation via multiple-laser scattering in ponderomotive potential well PHYSICAL REVIEW E 95, 013210 (2017)

71.    S. V. Bulanov, T. Zh. Esirkepov, J. K. Koga, S. S. Bulanov, Z. Gong, X. Q. Yan and M. Kando, Charged particle dynamics in multiple colliding electromagnetic waves. Survey of random walk, Levy flights, limit circles, attractors and structurally determinate patterns, J. Plamsa Phys. 83, 905830202 (2017)

72.    Li Tao, Kun Zhu1, Jungao Zhu, Xiaohan Xu, Chen Lin, Wenjun Ma, Haiyang Lu, Yanying Zhao, Yuan rong Lu, Jia-er Chen and Xueqing Yan*, An analytical reconstruction model of the spread out Bragg peak using laser-accelerated proton beams, Physics in Medicine & Biology, Phys. Med. Biol. 62 5200–5212 (2017)

73.    Wei Song, Rong-hao Hu, Yin-ren Shou, Zheng Gong, Jin-qing Yu, Chen Lin, Wen-Jun Ma, Yan-ying Zhao, Hai-yang Lu, Xue-qing Yan, High-yield high-efficiency positron generation in high-Z metal targets irradiated by laser produced electrons from near-critical density plasmas, Chinses Physics Letters, 34 085201 (2017)

74.    Jun-gao Zhu, Kun Zhu, Li Tao, Yi-xing Geng, Chen Lin, Wen-jun Ma, Hai-yang Lu, Yan-ying Zhao, Yuan-rong Lu, Jia-er Chen, Xue-qing Yan, Beam Line Design of Compact Laser Plasma Accelerator, Chinese Physics Letters 34, 054101 (2017)

75.    Xiao-wen Zhu, Yuan-rong Lu, Kun Zhu, Xue-qing Yan, Hu Wang, Shu-li Gao, Yu-bin Zou, Zhi-yu Guo, Four-rod RFQ dynamics design of PKUNIFTY upgrade, Chinese Physics Letters 34, 012901 (2017)

76.    Jun-gao Zhu, Kun Zhu, Li Tao, Xiao-han Xu, Chen Lin, Wen-jun Ma, Hai-yang Lu, Yan-ying Zhao, Yuan-rong Lu, Jia-er Chen, Xue-qing Yan, Distribution uniformity of laser-accelerated proton beams, Chinese Physics C 41, 097001 (2017)

77.    X. L. Wang, Z. Y. Xu, W. Luo, H. Y. Lu, S. C. Zhu and X. Q. Yan, Transmustaion prospect of long-lived nuclear waste induced by high-charge electron beam from laser plasma accelerator, Physics pf Plasmas 24, 093105 (2017)

78.    H. X. Chang, B. Qiao, T. W. Huang, Z. Xu, C. T. Zhou, Y. Q. Gu, X. Q. Yan, M. Zepf, and X. T. He, Brilliant petawatt gamma-ray pulse generation in quantum electrodynamic laser-plasma interaction, Scientific Reports, 7 45031(2017)

79.    Ronghao Hu, Haiyang Lu,* Yinren Shou, Chen Lin, Hongbin Zhuo,Chia-erh Chen, and Xueqing Yan*, Brilliant GeV electron beam with narrow energy spread generated by a laser plasma accelerator, PHYSICAL REVIEW ACCELERATORS AND BEAMS 19, 091301 (2016)

80.    M. L. Zhou, B. Liu, R. H. Hu, Y. R. Shou, C. Lin, H. Y. Lu, Y. R. Lu, Y. Q. Gu, W. J. Ma, and X. Q. Yan*, Stable radiation pressure acceleration of ions by suppressing transverse Rayleigh-Taylor instability with multiple Gaussian pulses,Citation: Physics of Plasmas 23, 083109 (2016); doi: 10.1063/1.4960312

81.    B. Liu, J. Meyer-ter-Vehn, K-U. Bamberg, W. J. Ma, J. Liu, X. T. He,X. Q. Yan, and H. Ruhl, Ion wave breaking acceleration, PHYSICAL REVIEW ACCELERATORS AND BEAMS 19, 073401 (2016)

82.    Shuan Zhao, Chen Lin, Jia-er Chen, Wen-jun Ma, Jun-jie Wang, Xue-qing Yan, Using target ablation for ion beam quality improvement, Chin. Phys. Lett. 33, 035202 (2016)

83.    T.Tonician, C.Wang, E.McGary,A.Meadows,A.V.Arefiev, J.Blakeniev, J.Blakeney, K.Serratto, D.Kuk, C.Chester, R.Roycroft, L.Gao, H.Fu, X.Q.Yan, J.Schreiber,…, B.M.Hegelich,Non- Maxwellian electron distributions resulting from DLA in near-critical plasmas, Matter and Radiation at Extremes 1 (2016) 82-87

84.    M.L. Zhou, X.Q. Yan, G. Mourou, J.A. Wheeler, J.H. Bin, J. Schreiber and T. Tajima, Proton Acceleration by Single-Cycle Laser Pulses Offers a Novel Monoenergetic and Stable Operating Regime, Physics of Plasmas, 2016

85.    W. L. Zhang, B. Qiao, X. F. Shen, W. Y. You, T. W. Huang, X. Q. Yan, S. Z. Wu, C. T. Zhou and X. T. He, Generation of quasi-monoenergetic heavy ion beams via staged shock wave acceleration driven by intense laser pulses in near-critical plasmas, New Journal of Physics 18, 293029 (2016)

86.    YINREN SHOU, HAIYANG LU, RONGHAO HU, CHEN LIN, HONGYONG WANG, MEILIN ZHOU, XIANTU HE,JIA ERH CHEN, AND XUEQING YAN, Near-diffraction-limited laser focusing with a near-critical density plasma lens, Vol. 41, No. 1 / January 1 2016 / Optics Letters 139

87.    Characterization of magnetic reconnection in the high-energy-density regime, Z. Xu, B. Qiao, H. X. Chang, W. P. Yao, S. Z. Wu, X. Q. Yan, C. T. Zhou, X. G. Wang, and X. T. He, PHYSICAL REVIEW E 93, 033206 (2016)

88.    Generation of overdense and high-energy electron-positron-pair plasmas by irradiation of a thin foil with two ultraintense lasers, H. X. Chang, B. Qiao, Z. Xu, X. R. Xu, C. T. Zhou, X. Q. Yan, S. Z. Wu,M. Borghesi, M. Zepf, and X. T. He, PHYSICAL REVIEW E 92, 053107 (2015)

89.    Collimated proton acceleration in light sail regime with a tailored pinhole target, H. Y. Wang, X. Q. Yan, and M. Zepf , Physics of Plasmas (1994-present) 21, 063113 (2014); doi: 10.1063/1.4886143

90.    J. H. Bin, W.J. Ma, K. Allinger, H.Y. Wang, D. Kiefer, S. Reinhardt, P. Hilz, K.Khrennikov, S. Karsch, X.Q. Yan, F. Krausz, T. Tajima, D. Habs, and J. Schreiber , Ion Acceleration Using Relativistic Pulse Shaping in Near-Critical-Density Plasmas, Phys. Rev. Lett. 115, 064801 (2015)

91.    Dense Helical Electron Bunch Generation in Near-Critical Density Plasmas with Ultrarelativistic Laser Intensities, Ronghao Hu, Bin Liu, Haiyang Lu, Meilin Zhou, Chen Lin, Zhengming Sheng, Chia-erh Chen, Xiantu He, & Xueqing Yan, Scientific Reports | 5:15499 | DOI: 10.1038/srep15499, 2015

92.    B S. Zhao, C. Lin, H. Y. Wang, H. Y. Lu, X. T. He, J. E. Chen, T. E. Cowan, and X. Q. Yan*Ion acceleration enhanced by target ablationPhysics of Plasmas 22, 073106 (2015), SCI

93.    H. Y. Wang, X. Q. Yan,* and M. ZepfHigh-energy monoenergetic proton beams from two stage acceleration with a slow laser pulse, PHYSICAL REVIEW SPECIAL TOPICS - ACCELERATORS AND BEAMS 18, 021302 (2015) , SCI

94.    B. Liu, R. H. Hu, H. Y. Wang, D. Wu, J. Liu, C. E. Chen, J. Meyer-ter-Vehn, X. Q. Yan, and X. T. He, Quasimonoenergetic electron beam and brilliant gamma-ray radiation generated from near critical density plasma due to relativistic resonant phase locking, Physics of Plasmas 22, 080704 (2015) , SCI

95.    Instability-free ion acceleration by two laser pulsesEur. Phys. J. Special Topics 223, 1031–1035 (2014) M.L. Zhou, S. Zhao, H.Y. Wang, C. Lin, H.Y. Lu, Y.R. Lu, T. Tajima, X.T. He, C.E. Chen, Y.Q. Gu, and X.Q. Yan.

96.    Collimated proton acceleration in light sail regime with a tailored pinhole targetPHYSICS OF PLASMAS 21, 063113 (2014), H. Y. Wang, X. Q. Yan, and M. Zepf,.

97.    Laser-driven three-stage heavy-ion acceleration from relativistic laser-plasma interactionPHYSICAL REVIEW E 89, 013107 (2014) H. Y. Wang, C. Lin,* B. Liu, Z. M. Sheng, H. Y. Lu, W. J. Ma J. H. Bin, J. Schreiber, X. T. He, J. E. Chen, M. Zepf, and X. Q. Yan* 1

98.     Dong Wu, C. Y. Zheng, B. Qiao, C. T. Zhou, X. Q. Yan, M. Y. Yu and X. T. He, “Suppression of transverse ablative Rayleigh-Taylor-like instability in the hole-boring radiation pressure acceleration by using elliptically polarized laser pulses”, Phys. Rev. E, 90, 023101 (2014). 1

99.     Laser-driven collimated tens-GeV monoenergetic protons from mass masslimited target plus preformed channel PHYSICS OF PLASMAS 20, 013107 (2013)F. L. Zheng, S. Z. Wu, H. C. Wu, C. T. Zhou, H. B. CaiM. Y. Yu, T. Tajima, X. Q. Yan*, and X. T. He*

100. H. Y. Wang, X. Q. Yan, J. E. Chen, X. T. He, W. J. Ma, J. H. Bin, J. Schreiber, T. Tajima, and D. HabsEfficient and stable proton acceleration by irradiating a two-layer target with a linearly polarized laser pulse PHYSICS OF PLASMAS 20, 013101 (2013)

101. B. Liu, H. Y. Wang, J. Liu, L. B Fu, X. Q Yan, and X. T He, Generating Overcritical Dense Relativistic Electron Beams via Self-Matching, Resonance Acceleration, Phys. Rev. Lett., (110, 045002 (2013))

102. Meng Wen, Luling Jin, Yuanrong Lu, Jiaer Chen, and X. Q Yan Frequency tunable x-ray source via Thomson backscattering on flying mirror from laser foil interactionAPPLIED PHYSICS LETTERS 101, 021102 (2012)

103. M. WenL. L. Jin, H. Y. Wang, Z. Wang, B. F. Shen, Y. R. Lu, J. E. Chen, and X. Q. Yan, Determination of carrier-envelope phase of relativistic few-cycle laser pulses by Thomson backscattering spectroscopy PHYSICAL REVIEW E 85, 035401(R) (2012)

104. Meng Wen, Haicheng Wu, Luling Jin, Yuanrong Lu, Jiaer Chen, X. Q YanEnergy spread inhibition of compact electron bunch driven by circularly polarized laser pulse PHYSICS OF PLASMAS 19, 083112 (2012)

105. Lingyuan Gao, Hongyong Wang, Chen Lin, Yubin Zou, and X. Q YanEfficient proton beam generation from a foam-carbon foil target using an intense circularly polarized laser PHYSICS OF PLASMAS 19, 083107 (2012)

106. H. Y. Wang, C. Lin, F. L. Zheng, Y. R. Lu, Z. Y. Guo, X. T. He, J. E. Chen, and X. Q. Yan, High-quality proton bunch from laser interaction with a gas-filled cone target, PHYSICS OF PLASMAS 18, 093105 (2011)

107. F. L. Zheng, S. Z. Wu, C. T. Zhou, H. Y. Wang, X. Q. Yan and X. T. He, Sub Tev proton beam acceleration, Euro.Phys.Lett, 95,55005 (2011)

108. H.Y.Wang, C. Lin, Z. M. Sheng, B. Liu, S. Zhao, Z.Y. Guo, Y. R. Lu, X. T. He, J. E. Chen, and X. Q Yan, Laser Shaping of a Relativistic Intense, Short Gaussian Pulse by a Plasma Lens, Phys. Rev. Lett. 107, 265002 (2011)

109. H. Y. Wang, X. Q. Yan, Y. R. Lu, F. L. Zheng, Z. Y. Guo, W. J. Ma, X. T. He,T. Tajima, D. Habs, and J. E. Chen, Autofocused, enhanced proton acceleration from a nanometer-scale bulged foil, PHYSICS OF PLASMAS 17, 113111 (2010)

110. X. Q. Yan, T. Tajima, M. Hegelich, L. Yin and D. Habs, Theory of ion acceleration from targets of nanometers, Appl. Phys. B, 98711-721 (2009)

111. X. Q. Yan, H. C. Wu, Z. M. Sheng, J. E. Chen and J. Meyer-ter-Vehn, Self-organizing GeV nano-Coulomb collimated proton beam from laser foil interaction at 7 × 10^21 W/cm^2, Phys. Rev. Lett. 103, 135001 (2009)

112. X. Q. YanC. Lin, Z. M. Sheng, Z. Y. Guo, B. C. Liu,Y. R. Lu, J. X. Fang, and J. E. ChenReply on comments on High current and monoenergetic proton beams generated by a circularly-polarized laser pulse in the phase-stable acceleration regime, Phys. Rev. Lett. 102, 239502 (2009)

113. A. Henig, S. Steinke, M.Schnuerer, T. Sokollik, P.V. Nickles,D. Jung, D. Kiefer,J. Schreiber, T. Tajima, X. Q. Yan, M. Hegelich, W. Sandner, and D. Habs, Radiation pressure acceleration of ion beams driven by circularly polarized laser pulses, Phys. Rev. Lett. 103, 245003 (2009)

114. T. Tajima, D. Habs and X. Q. Yan, Laser Acceleration of Ions For Radiation Therapy, Review of Accelerator Science and Technology (RAST), 2: 201-228 (2009).

115. X. Q. Yan, M. Chen, Z. M. Sheng, J.E. Chen, Self-induced magnetic focusing of proton beams by Weibel-like instability in the laser foil-plasma interactions, PHYSICS OF PLASMAS 16, 044501 (2009).

116. X. Q. Yan, C. Lin, Z. M. Sheng, Z. Y. Guo, B. C. Liu,Y. R. Lu, J. X. Fang, and J. E. ChenHigh current and monoenergetic proton beams generated by a circularly-polarized laser pulse in the phase-stable acceleration (PSA) regime, Phys. Rev. Lett. 100, 135003 (2008)

117. X. Q. Yan, B. C. Liu, et al. Mono-Energetic Proton Beam Acceleration in Laser Foil-Plasma Interactions Chinese Physics Letters 25(9): 3330-3333 (2008).

118. B. C. Liu, X. Q. Yan, C. Lin, Y. R. Lu, Z. Y. Guo, J. X. Fang, Z. M. Sheng, J. E. Chen, Generating monoenergetic proton beam by using circularly polarized laser, Chinese Physics C (HEP & NP), Vol.32 (2008).

119. B. C. Liu, Z. H. He, X. Q. Yan, Z. M. Sheng, Z. Y. Guo, Y. R. Lu, and J. E. Chen, Generation of High-Current Proton Beams With a Low Energy Spread by Phase-Stable Acceleration (PSA), IEEE Transactions On Plasma Science, Volume 36, Issue 4, 1854 – 1856 (2008).

120. X. Q. Yan, R.A. Jameson, Y.R. Lu, Z.Y. Guo, J.X. Fang, J.E. ChenMatched and equipartitioned design method for modern high-intensity radio frequency quadrupole accelerators Nuclear Inst. and Methods in Physics Research, A, 577,402–408 (2007).

121. X. Q. Yan, Y. R. Lu, J. X. Fang, Z.Y. Guo, X. T. Ren, J. X. Yu, Y. Xie, and C. E. Chen, The numerical simulations and experiments of simultaneous acceleration of positive and negative ions in a RFQ, Physical Review Special Topics, 9, 020101 (2006).

122. X. Q. Yan, C. E. Chen, Z. Y. Guo, J. X. Fang, The beam mismatches in the RFQ dynamics design, Nuclear Inst. and Methods in Physics Research, A, 554, 132-137 (2005).

123. X. Q. Yan, C.E. Chen, J.X. Fang, Z.Y. Guo, Y.R. Lu, SFRFQ with diaphragms linac structure, Nuclear Inst. and Methods in Physics Research, A Volume: 539, Issue: 3, March 1, pp. 606-612 (2005).

124. X. Q. Yan, C. E. Chen, J. X. Fang, Z. Y. Guo, W. G. Li, Y. R. Lu, Y. Wu, Exploring the Feasibility of a Separated Function RFQ with minivane Structure , Nuclear Inst. and Methods in Physics Research, A, 506, 1-6 (2003).

125. X. Q. Yan, C. E. Chen, J. X. Fang, Study of the rod style SFRFQ structure, ACTA PHYSICA SINICA, Vol 51, 1153-1155 (2002).

126. Bright Subcycle Extreme Ultraviolet Bursts from a Single Dense Relativistic Electron SheetPRL 113, 235002 (2014), W. J. Ma, J. H. Bin, H. Y. Wang, M. Yeung, C. Kreuzer, M. Streeter, P. S. Foster, S. Cousens, D. Kiefer, B. Dromey, X. Q. Yan, J. Meyer-ter-Vehn, M. Zepf, and J. Schreiber

127. Yongsheng Huang, Naiyan Wang, Xiuzhang Tang, Yijin Shi, and X. Q Yan, Ultra-relativistic ion acceleration in the laser-plasma interactions, PHYSICS OF PLASMAS 19, 093109 (2012)

128. Ingo Hofmann, Juergen Meyer-ter-Vehn, X. Q Yan, HusamAl-Omari, Chromatic energy filter and characterization of laser-accelerated proton beams for particle therapy, Nuclear Instruments and Methods in Physics Research A 681 ,44–54 (2012)

129. D. Jung, L. Yin, B. J. Albright, D. C. Gautier, R. Ho¨rlein, D. Kiefer, A. Henig, R. Johnson, S. Letzring, S. Palaniyappan, R. Shah, T. Shimada, X. Q Yan, K. J. Bowers, T. Tajima, J. C. Ferna´ndez, D. Habs, and B. M. HegelichMonoenergetic Ion Beam Generation by Driving Ion Solitary Waves with Circularly Polarized Laser Light Phys. Rev. Lett. 107, 115002 (2011)

130. Ingo Hofmann, Ju¨rgen Meyer-ter-Vehn and X. Q Yan, Anna Orzhekhovskaya and Stepan Yaramyshev, PHYSICAL REVIEW SPECIAL TOPICS - ACCELERATORS AND BEAMS 14, 031304 (2011)

131. B. M. Hegelich, B. J. Albright, J. C. Fernandez , D. C. Gautier, C. Huang, D.Jung, T. J. Kwan, S. Letzring, S. Palaniyappan, R. C. Shah, H.-C. Wu, L.Yin, A. Henig), R. Hörlein, D. Kiefer, J. Schreiber, X. Q Yan, D. Habs, B.Dromey, M. Tempora and J.J. Honrubia, Experimental demonstration of key parameters for Ion-Based Fast IgnitionNuclear Fusion, 51, 083011 (2011)

132. B. J. Albright, L. Yin, B. M. Hegelich, K. J. Bowers,C. Huang, A. Henig, J. C. Fern´andez, K. A. Flippo,S. A. Gaillard1, T. J. T. Kwan, X. Q Yan, T. Tajima,D. Habs,Ultraintense laser interaction with nanoscale targets:a simple model for layer expansion and ion acceleration, Journal of Physics: Conference Series 244 (2010) 042022

133. S. Steinke, A. Henig, M. Schnuerer, T. Sokollik, P.V. Nickles, D. Jung, D. Kiefer, R. Hoerlein, J. Schreiber, T. Tajima, X.Q. Yan, M. Hegelich, J. Meyer-Ter-Vehn, W. Sandner And D. Habs Efficient ion acceleration by collective laser-driven electron dynamics with ultra-thin foil targets Laser and Particle Beams, 28, 215–221 (2010).

134. Z. M. Sheng, W. M. Wang , X. Q. Yan , M. Chen, J. Zhang , J. E. Chen LASER-DRIVEN RELATIVISTIC PLASMAS APPLIED TO SCIENCE, INDUSTRY AND MEDICINE, AIP Conference Proceedings, Volume: 1153 Page: 189-200 (2009)

135. Z.Wang , J. E. Chen, Y. R., K. Zhu, M.L.Kang, X. Q. Yan, Z.Y.Guo, S.L.Gao, J.X.FangDesign and measurements of SFRFQ cavity, Nuclear Inst. and Methods in Physics Research, A Volume: 607 Issue: 3 Page: 522-526 (2009)

136. M.Chen, A.Pukhov, Z.M.Sheng, X. Q. Yan, Laser mode effects on the ion acceleration during circularly polarized laser pulse interaction with foil targets, PHYSICS OF PLASMAS, 15, 113103, 2008

137. J.E. Chen , Z.Y. Guo , Y.R. Lu , S.L. Gao , K. Zhu , Z. Wang , X. Q. Yan, S.X. Peng , J. Zhao , J.F. Guo, W. G. Li , M. L. Yu , Z. X. Yuan , J. X. Fang , R&D status of SFRFQ accelerating system, CHINESE PHYSICS C, Volume: 32 Page: 231-233, Suppl. 1 (2008)

138. W. Liu, Z. Y. Guo, X. Q. Yan, Y. R. Lu, K. Zhu, S. L. Gao, J. X. Fang, R. A. Jameson, J. E. ChenOptimization study of the 1MeV RFQ at Peking University, HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION, Volume: 31 Issue: 8 Page: 783-786 (2007)

139. J. X. Fang, X. Q. Yan, W. G. Li, Z. Y. Guo , J. F. Guo, Y. R. Lu, S. L. Gao, K. Zhu, Z. Wang, M. L. Yu, J. E. ChenStudy on physical performance for separated function RFQ , HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION, Volume: 30 Page: 16-18, Suppl. 1, (2006)

140. Z. Wang Z, J. E. Chen , X. Q. Yan, Y. R. Lu, J. X. Fang , Z. Y. Guo, Optimization of SFRFQ flake-electrode design, ACTA PHYSICA SINICA Volume: 55 Issue: 12 Page: 6298-6301 (2006)

141. Y. R. Lu, C. E. Chen, J. X. Fang, S. L. Gao, J. F. Guo, Z. Y. Guo, D. S. Li, W. G. Li, O. J. Pan, X. T. Ren, Y. Wu, X. Q. Yan, J. X. Yu, M. L. Yu, U. Ratzinger, H. Deitinghoff, H. Klein, A. Schempp, Investigation of high duty factor ISR RFQ-1000. Nuclear Instruments and Methods in Physics Research, A Volume 515, Issue 3, Pages 394-401, (2003).

142. LOW ENERGY SPREAD BEAM DYNAMICS AND RF DESIGN OF A TRAPEZOIDAL IH-RFQ * Y.R. Lu † , Y.C. Nie ‡ ,C.E. Chen, Z.Y.Guo, X.Q.Yan, K.Zhu, S.L.Gao, J.X.Fang State Key Lab of Nuclear …

143. Authors: Y.R. Lu, J.E. Chen, J.X. Fang, S.L. Gao, Z.Y. Guo, K.X. Liu, Y.C. Nie, X.Q. Yan, K. Zhu, PKU/IHIP, Beijing ,accelconf.web.cern.ch/AccelConf/LINAC08/papers/mop024.pdf

144. EXPLORING THE FEASIBILITY OF A SEPARATED FUNCTION RFQ STRUCTURE * C.E. Chen, X.Q.Yan, J.X. Fang, Z.Y. Guo, W.G. Li, IHIP, Peking University, Beijing, China Y. Wu, IPP, CAS …,Authors: C.E. Chen, J.X. Fang, Z.Y. Guo, W.G. Li, X.Q. Yan, IHIP, Beijing, Y. Wu, IPP, Hefei,C.E. Chen, J.X. Fang, Z.Y. Guo, W.G. Li, X.Q. Yan, IHIP, Beijing, Y. Wu, IPP, Hefei ,accelconf.web.cern.ch/AccelConf/e02/PAPERS/THPLE101.pdf

145. DESIGN OF A 200MHZ PROTON RFQ Z.Y. Guo, C. Zhang, X.Q. Yan, J.X. Fang, Y.R. Lu, C.E. Chen Institute of Heavy Ion Physics, Peking University & Key Laboratory of Heavy Ion Physics …,Authors: Z.Y. Guo, C.E. Chen, J.X. Fang, Y.R. Lu, X.Q. Yan, C. Zhang, IHIP, Beiji ng,Z.Y. Guo, C.E. Chen, J.X. Fang, Y.R. Lu, X.Q. Yan, C. Zhang, IHIP, Beijing | Date: - | Size: 243.2 K,accelconf.web.cern.ch/AccelConf/e02/PAPERS/THPLE102.pdf

146. BEAM COMMISSIONING AND NEUTRON RADIOGRAPHY ON A HIGH CURRENT DEUTERON RFQ* Y. R. Lu # , J. Zhao, Y. B. Zou, Q. F. Zhou, S. Wang, S. X. Peng, K. Zhu, S. L. Gao, G. Liu, F. J. Jia …Authors: Y.R. Lu, J. Chen, J.E. Chen, S.L. Gao, Z.Y. Guo, F.J. Jia, G. Liu, S.X. Peng, H.T. Ren, W.L. Xia, X.Q. Yan, K. Zhu [PKU, Beijing, People's Republic of China] S.Q. Liu, S. Wang, J. Zhao, B.Y. Zou [State Key Laboratory of Nuclear Physics and Technology, Beijing, Haidian District, People's Republic of China] | Date: - | Size: 814 K,accelconf.web.cern.ch/AccelConf/IPAC2013/papers/mopea039.pdf

147. DESIGN OF A 104-MHz TRAPEZOIDAL IH-RFQ* Y. C . N i e , Y. R . L u # , C. E. Chen, Z. Y. Guo, S. L. Gao, X. Q. Yan, K. Zhu, J. X. Fang State Key Lab of Nuclear Physics and …Authors: Y.C. Nie, J.E. Chen, J.X. Fang, S.L. Gao, Z.Y. Guo, Y.R. Lu, X.Q. Yan, K. Zhu, PKU/IHIP, Beijing | accelconf.web.cern.ch/AccelConf/PAC2009/papers/fr5rep079.pdf

148. BEAM COMMISSIONING OF SEPARATED FUNCTION RFQ ACCELERATOR J.E.Chen K.Zhu # Y.R.Lu X.Q.Yan Z.Wang M.L.Kang S.L.Gao M.Zhang S.X.Peng Z.Y.Guo J.F.Guo W.G.Li J.X.Fang Z.Z.Song J.X.Yu …Authors: J.E. Chen, J.X. Fang, S.L. Gao, J.F. Guo, Z.Y. Guo, M. Kang, W.G. Li, Y.R. Lu, S.X. Peng, Z.Z. Song, Z. Wang, X.Q. Yan, J.X. Yu, M.L. Yu, M. Zhang, K. Zhu, PKU/IHIP, Beijing | ,accelconf.web.cern.ch/AccelConf/PAC2009/papers/fr5rep123.pdf

149. THE DEVELOPMENT OF THE SEPARATED FUNCTION RFQ ACCELERATOR AT PEKING UNIVERSITY * J.E.Chen, X.Q.Yan # , J.X.Fang, S.L.Gao, Z.Y.Guo,Y.R.Lu, Z.Wang, K.Zhu State Key Lab of Nuclear …Authors: X. Q. Yan, J.-E. Chen, J. X. Fang, S. L. Gao, Z. Y. Guo, Y. R. Lu, Z. Wang, K. Zhu, PKU/IHIP, Beijing |accelconf.web.cern.ch/AccelConf/e08/papers/tuobm02.pdf

150. A CW HIGH CHARGE STATE HEAVY ION RFQ ACCELERATOR FOR SSC-LINAC INJECTOR * G. Liu, Y. R. Lu † , Z. Wang, K. Zhu, X. Q. Yan, S. L. Gao, Q. F. Zhou, J. E. Chen, State Key Lab of …,Authors: G. Liu, J.E. Chen, S.L. Gao, Y.R. Lu, Z. Wang, X.Q. Yan, Q.F. Zhou, K. Zhu [PKU/IHIP, Beijing, People's Republic of China] Y. He, C. Xiao, Y.Q. Yang, Y.J. Yuan, H.W. Zhao [IMP, Lanzhou, People's Republic of China] | Date: - | Size: 636 K,accelconf.web.cern.ch/AccelConf/IPAC2012/papers/thppp041.pdf

151. PROGRESS ON COUPLED RFQ-SFRFQ ACCELERATOR FOR MATERIALS IRRADIATION RESEARCH Z. Wang, W.L. Xia, J.E. Chen, Y. R. Lu, S.L. Gao, S.X. Peng, Z.Y. Guo, X.Q. Yan, K. Zhu, J. Zhao State …Authors: Z. Wang, J.E. Chen, S.L. Gao, Z.Y. Guo, Y.R. Lu, S.X. Peng, W.L. Xia, X.Q. Yan, J. Zhao, K. Zhu [PKU/IHIP, Beijing, People's Republic of China] | Date: - | Size: 548 K, accelconf.web.cern.ch/AccelConf/IPAC2012/papers/thppc013.pdf

152. LASER PROTON ACCELERATOR WITH IMPROVED REPEATABILITY AT PEKING UNIVERSITY* Y. Shou, Y. Geng, C. Li, R. Li, Q. Liao, C. Lin, H. Lu, W. Ma, P. Wang, M. Wu, X. Xu, X. Yan † , Y. Zhao …Authors: Y.R. Shou [Peking University, School of Physics, Beijing, People's Republic of China] Y.X. Geng, C. Li, L.R.F. Li, Q. Liao, C. Lin, H.Y. Lu, W.J. Ma, P. Wang, M. Wu, X. Xu, X.Q. Yan, Y.Y. Zhao, J.G. Zhu [PKU, Beijing, People's Republic of China] | Date: - | Size: 762 K, http://accelconf.web.cern.ch/AccelConf/ipac2017/papers/wepva012.pdf

153. ENHANCED LASER ION ACCELERATION BASED ON NEAR-CRITICAL DENSITY PLASMA LENS Y. X. Geng, C. Lin, S. Zhao, H. Y. Lu, Y. Y. Zhao, Y. B. Zou, H. Y. Wang, W. B. Zhao, R. F. Li, Q. Liao …Authors: Y.X. Geng, J.E. Chen, L.R.F. Li, Y.H. Li, Q. Liao, C. Lin, L.H.Y. Lu, Y.R. Lu, H. Wang, X.Q. Yan, Z.X. Yuan, S. Zhao, W.B. Zhao, Y.Y. Zhao, K. Zhu, B.Y. Zou [PKU, Beijing, People's Republic of China] | Date: - | Size: 675 K, accelconf.web.cern.ch/AccelConf/IPAC2014/papers/tupme052.pdf

154. A FREON-FILLED BUBBLE CHAMBER FOR GAMMA-RAY DETECTION IN INTENSE LASER-PLASMA INTERACTION* W. B. Zhao, Y. B. Zou, C. Lin, H. Y. Lu, Y. Y. Zhao, J. E. Chen, and X. Q. Yan …Authors: W.B. Zhao, J.E. Chen, C. Lin, L.H.Y. Lu, X.Q. Yan, Y.Y. Zhao, B.Y. Zou [PKU, Beijing, People's Republic of China] | Date: - | Size: 595.1 K, accelconf.web.cern.ch/AccelConf/IPAC2014/papers/thpme118.pdf

155. MONOENERGETIC BEAM GENERATED BY LASER ACCELERATOR AT PEKING UNIVERSITY K. Zhu † , J. G. Zhu, C. C. Li, M. J. Wu, Q. Liao, Y. X. Geng, X. H. Xu, D. Y. Li, Y. R. Shou, J. Q. Yu, C …,Authors: K. Zhu, J.E. Chen, Y.X. Geng, C. Li, D.Y. Li, Q. Liao, C. Lin, H.Y. Lu, W.J. Ma, Y.R. Shou, Wu,M.J. Wu, X.H. Xu, X.Q. Yan, J.Q. Yu, Y.Y. Zhao, J.G. Zhu [PKU, Beijing, People's Republic of China] | Date: - | Size: 1.3 Maccelconf.web.cern.ch/AccelConf/ipac2018/papers/thpml024.pdf

156. PRELIMINARY EMITTANCE MEASUREMENT OF LASER DRIVEN PROTON BEAM EMPLOYING A QUADRUPLE TRIPLET MAGNET Minjian Wu, Qing Liao, Yixing Geng, Jun Gao Zhu, Dongyu Li,Xiaohan Xu, Yanying …Authors: Wu,M.J. Wu, Y.X. Geng, Q. Liao, C. Lin, H.Y. Lu, Y.R. Lu, W.J. Ma, Y.R. Shou, X. Xu, X.Q. Yan, Y.Y. Zhao, J.G. Zhu, K. Zhu [PKU, Beijing, People's Republic of China] | Date: - | Size: 391 K, accelconf.web.cern.ch/AccelConf/ipac2018/papers/thpal071.pdf

157. COMPACT LASER PLASMA ACCELERATOR AT PEKING UNIVERSITY Rongfeng Li , Haiyang Lu * , Yixing Geng, Qing Liao, Yinren Shou, Shuchao Gao, Jianbo Liu, Yayong Zhu, Yanying Zhao, Jiaer …Authors: L.R.F. Li, J.E. Chen, S.C. Gao, Y.X. Geng, Q. Liao, J B. Liu, H.Y. Lu, X.Q. Yan, Y.Y. Zhao, Y.Y. Zhu [PKU, Beijing, People's Republic of China] Y.R. Shou [Peking University, School of Physics, Beijing, People's Republic of China] | Date: - | Size: 776 K accelconf.web.cern.ch/AccelConf/ipac2016/papers/wepmy011.pdf

158. PROTON BEAM ACCELERATION WITH CIRCULAR POLARIZED LASER PULSES* X.Q. Yan # , C.Lin , H.Y.Wang , Y.R. Lu, Z.Y. Guo, J.E. Chen, State Key Lab of Nuclear Physics and Technology, IHIP …Authors: X.Q. Yan, J.E. Chen, C. Lin, Y.R. Lu, H. Wang [PKU/IHIP, Beijing, People's Republic of China] Z.Y. Guo [IHEP, Beijing, People's Republic of China] | Date: - | Size: 1,022.2 K accelconf.web.cern.ch/AccelConf/IPAC2012/papers/tuyb01.pdf

159. RECENT PROGRESS OF LASER PLASMA PROTON ACCELERATOR AT PEKING UNIVERSITY X.Q.Yan † , C.Lin, H.Y.Lu, H.Y.Wang, S.Zhao, J.Zhu, H.Z.Fu, Y.X.Geng, Y.Shang, C.Cao, K.Zhu, Y.R.Lu,Z.X … Authors: X.Q. Yan, J.E. Chen, H.Z. Fu, Y.X. Geng, Z.Y. Guo, C. Lin, Y.R. Lu, Y. Shang, Z.X. Yuan, S. Zhao, K. Zhu [PKU, Beijing, People's Republic of China] | Date: - | Size: 669 K accelconf.web.cern.ch/AccelConf/IPAC2013/papers/tupea018.pdf

 

 



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