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Yirui Wang1,Jing Wang1,Jingui Ma1,Peng Yuan1,Liejia Qian1,2(School of Physics and Astronomy,Shanghai Jiao Tong University;Tsung-Dao Lee Institute,Shanghai Jiao Tong University).Numerical study of spatial chirp distortion in quasi-parametric chirped-pulse amplification[J].高功率激光科学与工程(英文版),2022,第3期
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E.J.Harvey(AWE).A route to enhanced performance for the petawatt beamlines of the Orion laser facility[J].高功率激光科学与工程(英文版),2022,第3期
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Fuyuan Wu1,2,Xiaohu Yang2,3,Yanyun Ma2,3,Qi Zhang1,2,Zhe Zhang4,Xiaohui Yuan1,2,Hao Liu1,2,Zhengdong Liu5,Jiayong Zhong2,5,Jian Zheng2,6,Yutong Li2,4,Jie Zhang1,2(Key Laboratory for Laser Plasmas (MOE) and School of Physics and Astronomy,Shanghai Jiao Tong University;Collaborative Innovation Center of IFSA,Shanghai Jiao Tong University;Department of Physics,National University of Defense Technology;Beijing National Laboratory for Condensed Matter Physics,Institute of Physics,Chinese Academy of Sciences;Department of Astronomy,Beijing Normal University;Department of Plasma Physics and Fusion Engineering,University of Science and Technology of China).Machine-learning guided optimization of laser pulses for direct-drive implosions[J].High Power Laser Science and Engineering,2022,第2期
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Huiyu Chen1,2,Min Qian1,2,Youkuo Chen1,Xin Wang1,Jingping Tang1,Lei Wen1,Junjiang Hu1,Wei Chen1,Shubin Chen1,Lili Hu1(Key Laboratory of Materials for High Power Laser,Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences;Center of Materials Science and Optoelectronics Engineering,University of Chinese Academy of Sciences).Monolithic edge-cladding process for the elliptical disk of N31-type Nd-doped high-power laser glass[J].High Power Laser Science and Engineering,2022,第2期
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Jie Guo1,Zichen Gao1,2,Di Sun1,2,Xiao Du1,2,Yongxi Gao1,2,Xiaoyan Liang1(State Key Laboratory of High Field Laser Physics,Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences;Center of Materials Science and Optoelectronics Engineering,University of Chinese Academy of Sciences).An efficient high-power femtosecond laser based on periodic-layered-Kerr media nonlinear compression and a Yb:YAG regenerative amplifier[J].High Power Laser Science and Engineering,2022,第2期
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P.-G.Bleotu1,2,3,J.Wheeler4,5,D.Papadopoulos1,M.Chabanis1,J.Prudent1,M.Frotin1,L.Martin1,N.Lebas1,A.Freneaux1,A.Beluze1,F.Mathieu1,P.Audebert1,D.Ursescu2,3,J.Fuchs1,G.Mourou5(LULI-CNRS,CEA,Sorbonne Universite,Ecole Polytechnique,Institut Polytechnique de Paris;Faculty of Physics,University of Bucharest;Horia Hulubei National Institute for R&D in Physics and Nuclear Engineering (IFIN-HH);Independent Researcher;IZEST,Ecole Polytechnique,Institut Polytechnique de Paris).Spectral broadening for multi-Joule pulse compression in the APOLLON Long Focal Area facility[J].High Power Laser Science and Engineering,2022,第2期
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Hui Tong1,Fuyong Wang1,2,Zhipeng Qin1,Guoqiang Xie1,Liejia Qian1(School of Physics and Astronomy,Key Laboratory for Laser Plasmas (Ministry of Education),Collaborative Innovation Center of IFSA (CICIFSA),Shanghai Jiao Tong University;School of Information and Electrical Engineering,Hebei University of Engineering).Temporal-filtering dissipative soliton in an optical parametric oscillator[J].High Power Laser Science and Engineering,2022,第2期
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Xiaoya Ma,Jiangming Xu,Jun Ye,Yang Zhang,Liangjin Huang,Tianfu Yao,Jinyong Leng,Zhiyong Pan,Pu Zhou(College of Advanced Interdisciplinary Studies,National University of Defense Technology).Cladding-pumped Raman fiber laser with 0.78% quantum defect enabled by phosphorus-doped fiber[J].High Power Laser Science and Engineering,2022,第2期
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I.V.Aleksandrova,E.R.Koresheva,E.L.Koshelev(P.N.Lebedev Physical Institute,Russian Academy of Sciences).A high-pinning-Type-Ⅱ superconducting maglev for ICF target delivery:main principles, material options and demonstration models[J].High Power Laser Science and Engineering,2022,第2期
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Paolo Tomassini1,2,Francesco Massimo3,Luca Labate1,4,Leonida A.Gizzi1,4(Intense Laser Irradiation Laboratory;ELI-NP;Maison de la Simulation,CEA;INFN,Sect.of Pisa).Accurate electron beam phase-space theory for ionization-injection schemes driven by laser pulses[J].High Power Laser Science and Engineering,2022,第2期
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J.J.Pilgram1,M.B.P.Adams2,C.G.Constantin1,P.V.Heuer3,S.Ghazaryan1,M.Kaloyan1,R.S.Dorst1,D.B.Schaeffer4,P.Tzeferacos2,3,C.Niemann1(Department of Physics and Astronomy,University of California;Department of Physics and Astronomy,University of Rochester;Laboratory for Laser Energetics,University of Rochester;Department of Astrophysical Sciences,Princeton University).High repetition rate exploration of the Biermann battery effect in laser produced plasmas over large spatial regions[J].High Power Laser Science and Engineering,2022,第2期
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Tongyao Du1,2,Dajie Huang2,He Cheng2,Wei Fan2,3,Zhibo Xing2,3,Xuechun Li2,3,Jianqiang Zhu2,3(Department of Optics and Optical Engineering,University of Science and Technology of China;National Laboratory on High Power Laser and Physics,Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences;Center of Materials Science and Optoelectronics Engineering,University of Chinese Academy of Sciences).Compensation method for performance degradation of optically addressed spatial light modulator induced by CW laser[J].High Power Laser Science and Engineering,2022,第1期
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Ji Ping Zou1,Hervé Co?c2,Dimitris Papadopoulos1(Laboratoire pour l'Utilisation des Lasers Intenses,CNRS,Ecole Polytechnique;CEA-CESTA).Spatiotemporal coupling investigations for Ti:sapphire-based multi-PW lasers[J].High Power Laser Science and Engineering,2022,第1期
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M.Salvadori1,2,G.Di Giorgio1,M.Cipriani1,M.Scisciò1,C.Verona3,P.L.Andreoli1,G.Cristofari1,R.De Angelis1,M.Pillon1,N.E.Andreev4,P.Antici2,N.G.Borisenko5,D.Giulietti6,7,M.Migliorati8,9,O.Rosmej10,11,S.Z?hter10,11,F.Consoli1(Fusion and Nuclear Safety Department,ENEA;INRS-EMT;Industrial Engineering Department,University of Rome "Tor Vergata";Joint Institute for High Temperatures,RAS;P.N.Lebedev Physical Institute,RAS;Department of Physics,University of Pisa;INFN of Pisa;University of Rome "La Sapienza";INFN of Rome;GSI Helmotzzentrum für Schwerionenforschung GmbH;Goethe University Frankfurt).Time-of-flight methodologies with large-area diamond detectors for ion characterization in laser-driven experiments[J].High Power Laser Science and Engineering,2022,第1期
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Sheng Zhao1,Weilun Qin2,Senlin Huang1(State Key Laboratory of Nuclear Physics and Technology and Institute of Heavy Ion Physics,School of Physics,Peking University;Deutsches Elektronen-Synchrotron (DESY)).Harmonic-enhanced high-gain harmonic generation for a high repetition rate free-electron laser[J].High Power Laser Science and Engineering,2022,第1期
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C.Y.Qin1,2,H.Zhang1,3,S.Li1,S.H.Zhai4,A.X.Li1,5,J.Y.Qian1,J.Y.Gui1,F.X.Wu1,Z.X.Zhang1,Y.Xu1,3,X.Y.Liang1,3,Y.X.Leng1,3,B.F.Shen1,4,L.L.Ji1,3,R.X.Li1,3,5(State Key Laboratory of High Field Laser Physics,Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences;Center of Materials Science and Optoelectronics Engineering,University of Chinese Academy of Sciences;CAS Center for Excellence in Ultra-intense Laser Science;Department of Physics,Shanghai Normal University;Shanghai Tech University).Mapping non-laminar proton acceleration in laser-driven target normal sheath field[J].High Power Laser Science and Engineering,2022,第1期
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Tao Liu,Kaiqing Zhang,Zheng Qi,Si Chen,Chao Feng,Haixiao Deng,Bo Liu,Dong Wang(Shanghai Advanced Research Institute,Chinese Academy of Sciences).Matching-based two-color X-ray free-electron laser generation utilizing laser–plasma accelerated electron beam[J].High Power Laser Science and Engineering,2022,第1期
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C.C.Gheorghiu1,M.Cerchez2,E.Aktan2,R.Prasad2,F.Yilmaz2,N.Yilmaz2,D.Popa1,O.Willi2,V.Leca1(Extreme Light Infrastructure-Nuclear Physics,Horia Hulubei National Institute for Physics and Nuclear Engineering;Institut für Laser-und Plasmaphysik,Heinrich-Heine-Universit?t).Fabrication of micrometre-sized periodic gratings in free-standing metallic foils for laser–plasma experiments[J].High Power Laser Science and Engineering,2022,第1期
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P.-G. Bleotu,J. Wheeler,D. Papadopoulos,M. Chabanis,J. Prudent,M. Frotin,L. Martin,N. Lebas,A. Freneaux,A. Beluze,F. Mathieu,P. Audebert,D. Ursescu,J. Fuchs,G. Mourou(LULI-CNRS,CEA,Sorbonne Universite,Ecole Polytechnique,Institut Polytechnique de Paris,F-91128 Palaiseau Cedex,France;Faculty of Physics,University of Bucharest,077125 Bucharest-Magurele,Romania;Horia Hulubei National Institute for R&D in Physics and Nuclear Engineering (IFIN-HH),Magurele,RO-077125,Romania;Independent Researcher,F-92340 Bourg-La-Reine,France;IZEST,Ecole Polytechnique,Institut Polytechnique de Paris,F-91128 Palaiseau Cedex,France).Spectral broadening for multi-Joule pulse compression in the APOLLON Long Focal Area facility[J].High Power Laser Science and Engineering,2022,第1期
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