人員介紹
顏學慶,博士,教授,傑青,博士生導師,所長。
研究方向:強場物理、雷射加速器、雷射加速與輻射在生物、醫學和材料中的套用研究。
教育與工作情況
•1994.10-1999.7,清華大學工程物理系
•1999.9-2002.9, 2003.11-2004.6,北京大學物理學院重離子物理研究所
•2002.9-2003.11,德國法蘭克福大學套用物理研究所
•2004年,北京大學粒子物理博士學位,講師
•2006年,北京大學物理學院,副教授
•2011年,北京大學教授(物理學院、工學院)
•2017年,北京大學重離子物理所,所長
研究領域
高能量密度物理、新型加速器和輻射源
高能量密度物理(HEDP)是研究能量密度超過10^11焦耳/米^3的極端條件下物質結構與特性及變化規律的科學, 是近年發展起來的重要交叉前沿領域,HEDP的研究對慣性約束聚變、材料物理、天體物理、加速器物理、國防等具有極其重要的意義。主要開展基於超強雷射與電漿相互作用中的粒子加速和輻射等相關物理問題的研究,具體方向如下: 1.強場物理(雷射電漿相互作用);2. 雷射加速器;3. 雷射加速與輻射在生物、醫學和材料中的套用研究。
社會兼職
•國際超高功率雷射科學與技術中心(IZEST)委員
•中國物理學會加速器物理常務理事&電漿加速專業組組長
•中國物理學會高能量密度物理專業委員會委員
•中國物理學會秋季物理會議組委&核物理與加速器物理召集人
•中國光學工程學會理事
•亞洲雷射電漿暑期學校教員
•全球華人物理學會加速器專題學校(OCPA-ATS)本地組委會主席、教員
•國際加速器大會(IPAC)程式委員會成員(SAB)
獲得榮譽
•2005年獲得北京大學優秀青年加速器工作者獎
•2007年獲得中國核物理學會胡濟民教育科學獎
•2008年獲得“北京大學鍾盛標物理教育基金”教師獎
•2008年獲得中國粒子加速器學會希望杯青年優秀論文獎 二等獎
•2009年獲得第十屆北京市青年優秀科技論文獎 一等獎
•2010年獲得國家傑出青年基金
•2011年獲得霍英東青年基金
•2014年入選科技部創新人才推進計畫青年領軍人才
•2015年入選中組部萬人計畫
•2015年入選科學中國人年度人物
主持或參加科研項目
1、國家自然科學基金重點項目、11535001,新型高效雷射電漿加速機制的理論和實驗研究, 370萬、2016/01-2020/01、在研,主持
2、國家重點基礎研究計畫、2013CBA01500、超強雷射驅動粒子加速及其重要、4500萬、2013/01-2018/01、在研、參加
3、國家科技部重大儀器開發專項、2012YQ030142、超小型雷射加速器及關鍵技術研究、6219萬、2012/10-2017/10、在研、主持
4、國家自然科學傑出青年基金、11025523、雷射加速器、2011/01-2014/12、200萬、已結題、主持
5、國家自然科學基金重點項目、10935002、雷射加速獲得準單能質子的理論和實驗研究、2010/01-2013/12、210萬、已結題、參加
6、2008年德國洪堡學者
7、國家自然科學基金、10605003、強流RFQ加速器中束流“均溫”問題的研究、2007/01-2009/12、20萬元、已結題、主持
8、國家自然科學基金委主任項目、10455001、分離作用射頻四極場(RFQ)加速系統的研究、2004/01-2008/12、200萬、已結題、參加
代表性論文(5篇)
H.Y.Wang, C. Lin, Z. M. Sheng, B. Liu, S. Zhao, Z.Y. Guo, Y. R. Lu, X. T. He, J. E. Chen, andX. Q Yan*, Phys. Rev. Lett. 107, 265002 (2011)
B. Liu, H. Y. Wang, J. Liu, L. B Fu,X. Q Yan*, and X. T He,, Phys. Rev. Lett., (110, 045002 (2013))
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)
X. Q. Yan*, C. Lin, Z. M. Sheng, Z. Y. Guo, B. C. Liu,Y. R. Lu, J. X. Fang, and J. E. Chen,,Phys. Rev. Lett. 100, 135003(2008)
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, Phys. Rev. Lett. 103, 245003 (2009)
1.H.Y.Wang, C. Lin, Z. M. Sheng, B. Liu, S. Zhao, Z.Y. Guo, Y. R. Lu, X. T. He, J. E. Chen, andX. Q Yan*, Phys. Rev. Lett. 107, 265002 (2011)
2.B. Liu, H. Y. Wang, J. Liu, L. B Fu,X. Q Yan*, and X. T He,, Phys. Rev. Lett., (110, 045002 (2013))
3.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)
4.X. Q. Yan*, C. Lin, Z. M. Sheng, Z. Y. Guo, B. C. Liu,Y. R. Lu, J. X. Fang, and J. E. Chen,,Phys. Rev. Lett. 100, 135003(2008)
5.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, Phys. Rev. Lett. 103, 245003 (2009)
近年來發表論文列表
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-efficiencyγ-ray flash generation via multiple-laser scattering in ponderomotive potential well PHYSICAL REVIEW E 95, 013210 (2017)
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)
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
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)
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
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
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
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)
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)
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
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)
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
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 ablation,Physics of Plasmas 22, 073106 (2015), SCI
H. Y. Wang, X. Q. Yan,* and M. Zepf,High-energy monoenergetic proton beams from two stage acceleration with a slow laser pulse, PHYSICAL REVIEW SPECIAL TOPICS – ACCELERATORS AND BEAMS 18, 021302 (2015)
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)
Instability-free ion acceleration by two laser pulses,Eur. 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
Collimated proton acceleration in light sail regime with a tailored pinhole target,PHYSICS OF PLASMAS 21, 063113 (2014),H. Y. Wang, X. Q. Yan, and M. Zepf
Laser-driven three-stage heavy-ion acceleration from relativistic laser-plasma interaction,PHYSICAL 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*
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
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. Cai,M. Y. Yu, T. Tajima, X. Q. Yan*, and X. T. He*
H. Y. Wang, X. Q. Yan, J. E. Chen, X. T. He, W. J. Ma, J. H. Bin, J. Schreiber, T. Tajima, and D. Habs,Efficient and stable proton acceleration by irradiating a two-layer target with a linearly polarized laser pulse, PHYSICS OF PLASMAS 20, 013101 (2013)
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))
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 interaction,APPLIED PHYSICS LETTERS 101, 021102 (2012)
M. Wen,L. 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)
Meng Wen, Haicheng Wu, Luling Jin, Yuanrong Lu, Jiaer Chen, X. Q Yan,Energy spread inhibition of compact electron bunch driven by circularly polarized laser pulse, PHYSICS OF PLASMAS 19, 083112 (2012)
Lingyuan Gao, Hongyong Wang, Chen Lin, Yubin Zou, and X. Q Yan,Efficient proton beam generation from a foam-carbon foil target using an intense circularly polarized laser, PHYSICS OF PLASMAS 19, 083107 (2012)
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)
F. L. Zheng, S. Z. Wu, C. T. Zhou, H. Y. Wang, X. Q. Yan and X. T. He, Euro.Phys.Lett, 95,55005 (2011)
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)
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)
X. Q. Yan, T. Tajima, M. Hegelich, L. Yin and D. Habs, Theory of ion acceleration from targets of nanometers, Appl. Phys. B, 98:711-721 (2009)
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)
X. Q. Yan,C. Lin, Z. M. Sheng, Z. Y. Guo, B. C. Liu,Y. R. Lu, J. X. Fang, and J. E. Chen,Reply 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)
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)
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).
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).
X. Q. Yan, C. Lin, Z. M. Sheng, Z. Y. Guo, B. C. Liu,Y. R. Lu, J. X. Fang, and J. E. Chen,High 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)
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).
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).
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).
X. Q. Yan, R.A. Jameson, Y.R. Lu, Z.Y. Guo, J.X. Fang, J.E. Chen,Matched and equipartitioned design method for modern high-intensity radio frequency quadrupole accelerators, Nuclear Inst. and Methods in Physics Research, A, 577,402–408 (2007).
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).
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).
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).
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).
X. Q. Yan, C. E. Chen, J. X. Fang, Study of the rod style SFRFQ structure, ACTA PHYSICA SINICA, Vol 51, 1153-1155 (2002).
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, Bright Subcycle Extreme Ultraviolet Bursts from a Single Dense Relativistic Electron Sheet,PRL 113, 235002 (2014).
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)
Ingo Hofmann, Juergen Meyer-ter-Vehn, X. Q Yan, HusamAl-Omari, Nuclear Instruments and Methods in Physics Research A 681 ,44–54 (2012)
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. Hegelich,Monoenergetic Ion Beam Generation by Driving Ion Solitary Waves with Circularly Polarized Laser Light, Phys. Rev. Lett. 107, 115002 (2011)
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)
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 Ignition,Nuclear Fusion, 51, 083011 (2011)
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
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).
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)
Z.Wang, J. E.Chen, Y. R., K.Zhu, M.L.Kang, X. Q.Yan, Z.Y.Guo, S.L.Gao, J.X.Fang,Design and measurements of SFRFQ cavity, Nuclear Inst. and Methods in Physics Research, A Volume: 607 Issue: 3 Page: 522-526 (2009)
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
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: 32Page: 231-233, Suppl. 1 (2008)
W. Liu, Z. Y. Guo, X. Q. Yan, Y. R. Lu, K. Zhu, S. L. Gao, J. X. Fang, R. A. Jameson, J. E. Chen,Optimization study of the 1MeV RFQ at Peking University, HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION, Volume: 31 Issue: 8 Page: 783-786 (2007)
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.Chen,Study on physical performance for separated function RFQ , HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION, Volume: 30 Page: 16-18, Suppl. 1, (2006)
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)
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).
1.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-efficiencyγ-ray flash generation via multiple-laser scattering in ponderomotive potential well PHYSICAL REVIEW E 95, 013210 (2017)
2.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)
3.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
4.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)
5.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
6.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
7.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
8.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)
9.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)
10.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
11.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)
12.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
13.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 ablation,Physics of Plasmas 22, 073106 (2015), SCI
14.H. Y. Wang, X. Q. Yan,* and M. Zepf,High-energy monoenergetic proton beams from two stage acceleration with a slow laser pulse, PHYSICAL REVIEW SPECIAL TOPICS – ACCELERATORS AND BEAMS 18, 021302 (2015)
15.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)
16.Instability-free ion acceleration by two laser pulses,Eur. 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
17.Collimated proton acceleration in light sail regime with a tailored pinhole target,PHYSICS OF PLASMAS 21, 063113 (2014),H. Y. Wang, X. Q. Yan, and M. Zepf
18.Laser-driven three-stage heavy-ion acceleration from relativistic laser-plasma interaction,PHYSICAL 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*
19.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
20.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. Cai,M. Y. Yu, T. Tajima, X. Q. Yan*, and X. T. He*
21.H. Y. Wang, X. Q. Yan, J. E. Chen, X. T. He, W. J. Ma, J. H. Bin, J. Schreiber, T. Tajima, and D. Habs,Efficient and stable proton acceleration by irradiating a two-layer target with a linearly polarized laser pulse, PHYSICS OF PLASMAS 20, 013101 (2013)
22.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))
23.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 interaction,APPLIED PHYSICS LETTERS 101, 021102 (2012)
24.M. Wen,L. 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)
25.Meng Wen, Haicheng Wu, Luling Jin, Yuanrong Lu, Jiaer Chen, X. Q Yan,Energy spread inhibition of compact electron bunch driven by circularly polarized laser pulse, PHYSICS OF PLASMAS 19, 083112 (2012)
26.Lingyuan Gao, Hongyong Wang, Chen Lin, Yubin Zou, and X. Q Yan,Efficient proton beam generation from a foam-carbon foil target using an intense circularly polarized laser, PHYSICS OF PLASMAS 19, 083107 (2012)
27.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)
28.F. L. Zheng, S. Z. Wu, C. T. Zhou, H. Y. Wang, X. Q. Yan and X. T. He, Euro.Phys.Lett, 95,55005 (2011)
29.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)
30.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)
31.X. Q. Yan, T. Tajima, M. Hegelich, L. Yin and D. Habs, Theory of ion acceleration from targets of nanometers, Appl. Phys. B, 98:711-721 (2009)
32.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)
33.X. Q. Yan,C. Lin, Z. M. Sheng, Z. Y. Guo, B. C. Liu,Y. R. Lu, J. X. Fang, and J. E. Chen,Reply 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)
34.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)
35.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).
36.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).
37.X. Q. Yan, C. Lin, Z. M. Sheng, Z. Y. Guo, B. C. Liu,Y. R. Lu, J. X. Fang, and J. E. Chen,High 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)
38.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).
39.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).
40.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).
41.X. Q. Yan, R.A. Jameson, Y.R. Lu, Z.Y. Guo, J.X. Fang, J.E. Chen,Matched and equipartitioned design method for modern high-intensity radio frequency quadrupole accelerators, Nuclear Inst. and Methods in Physics Research, A, 577,402–408 (2007).
42.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).
43.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).
44.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).
45.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).
46.X. Q. Yan, C. E. Chen, J. X. Fang, Study of the rod style SFRFQ structure, ACTA PHYSICA SINICA, Vol 51, 1153-1155 (2002).
47.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, Bright Subcycle Extreme Ultraviolet Bursts from a Single Dense Relativistic Electron Sheet,PRL 113, 235002 (2014).
48.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)
49.Ingo Hofmann, Juergen Meyer-ter-Vehn, X. Q Yan, HusamAl-Omari, Nuclear Instruments and Methods in Physics Research A 681 ,44–54 (2012)
50.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. Hegelich,Monoenergetic Ion Beam Generation by Driving Ion Solitary Waves with Circularly Polarized Laser Light, Phys. Rev. Lett. 107, 115002 (2011)
51.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)
52.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 Ignition,Nuclear Fusion, 51, 083011 (2011)
53.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
54.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).
55.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)
56.Z.Wang, J. E.Chen, Y. R., K.Zhu, M.L.Kang, X. Q.Yan, Z.Y.Guo, S.L.Gao, J.X.Fang,Design and measurements of SFRFQ cavity, Nuclear Inst. and Methods in Physics Research, A Volume: 607 Issue: 3 Page: 522-526 (2009)
57.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
58.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: 32Page: 231-233, Suppl. 1 (2008)
59.W. Liu, Z. Y. Guo, X. Q. Yan, Y. R. Lu, K. Zhu, S. L. Gao, J. X. Fang, R. A. Jameson, J. E. Chen,Optimization study of the 1MeV RFQ at Peking University, HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION, Volume: 31 Issue: 8 Page: 783-786 (2007)
60.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.Chen,Study on physical performance for separated function RFQ , HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION, Volume: 30 Page: 16-18, Suppl. 1, (2006)
61.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)
62.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).