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Hu Huang1,Tanya Z.Kosc1,2,Terrance J.Kessler1,Stavros G.Demos1(Laboratory for Laser Energetics,University of Rochester;Currently at Khiram Prototype Works LLC).Modeling of transverse stimulated Raman scattering in KDP/DKDP in large-aperture plates suitable for polarization control[J].High Power Laser Science and Engineering,2023,第5期
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Ying’an Chen,Yicheng Zhou,Zhipeng Qin,Guoqiang Xie,Peng Yuan,Jingui Ma,Liejia Qian(School of Physics and Astronomy,Key Laboratory for Laser Plasmas (Ministry of Education),Collaborative Innovation Center of IFSA (CICIFSA),Shanghai Jiao Tong University).Spatiotemporally mode-locked soliton fiber laser at 2.8 μm[J].High Power Laser Science and Engineering,2023,第5期
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Dongao Li1,Guobo Zhang2,Jie Zhao1,Yanting Hu1,Yu Lu1,Hao Zhang1,Qianni Li1,Dongze Zhang1,Rong Sha1,Fuqiu Shao1,Zhengming Sheng3,4,5,Tongpu Yu1(Department of Physics,National University of Defense Technology;Department of Nuclear Science and Technology,National University of Defense Technology;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;Tsung-Dao Lee Institute,Shanghai Jiao Tong University).Laser chirp controlled relativistic few-cycle mid-infrared pulse generation[J].High Power Laser Science and Engineering,2023,第5期
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Fangjie Li1,2,Kai Zhong1,2,Yiwen Zhang1,2,Tong Wu3,Yuxin Liu1,2,Hongzhan Qiao1,2,Jining Li1,2,Degang Xu1,2,Jianquan Yao1,2(School of Precision Instruments and Optoelectronics Engineering,Tianjin University;Key Laboratory of Opto-electronic Information Technology,Ministry of Education (Tianjin University);School of Marine Science and Technology,Tianjin University).Optical rectification in 4H-SiC:paving the way to generate strong terahertz fields with ultra-wide bandwidth[J].High Power Laser Science and Engineering,2023,第5期
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H.H.An,W.Wang,J.Xiong,C.Wang,X.Pan,X.P.Ouyang,S.Jiang,Z.Y.Xie(Shanghai Institute of Laser Plasma,China Academy of Engineering Physics,Shanghai,China; Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences,Shanghai,China; Center for Applied Physics and Technology,Peking University,Beijing,China; National Laboratory on High Power Laser and Physics,Shanghai,China).Accelerated protons with energies up to 70 MeV based on the optimized SG-II Peta-watt laser facility[J].High Power Laser Science and Engineering,2023,第5期
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Nan Lin1,2,Yunyi Chen1,2,Xin Wei1,2,Wenhe Yang1,2,Yuxin Leng2(School of Microelectronics,Shanghai University;Department of Precision Optics Engineering,Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences).Spectral purity systems applied for laser-produced plasma extreme ultraviolet lithography sources:a review[J].High Power Laser Science and Engineering,2023,第5期
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Martin Divoky1,Jonathan Phillips2,Jan Pilar1,Martin Hanus1,Petr Navratil1,Ondrej Denk1,Tomas Paliesek1,Patricie Severova1,Danielle Clarke2,Martin Smrz1,Thomas Butcher2,Chris Edwards2,John Collier2,Tomas Mocek1(HiLASE Centre,Institute of Physics of the Czech Academy of Sciences;Central Laser Facility,STFC Rutherford Appleton Laboratory).Kilowatt-class high-energy frequency conversion to 95 J at 10 Hz at 515 nm[J].High Power Laser Science and Engineering,2023,第5期
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Scott Feister1,Kevin Cassou2,Stephen Dann3,Andreas D?pp4,Philippe Gauron2,Anthony J.Gonsalves5,Archis Joglekar6,7,Victoria Marshall3,Olivier Neveu2,Hans-Peter Schlenvoigt8,Matthew J.V.Streeter,Charlotte A.J.Palmer(California State University Channel Islands;Université Paris-Saclay;Central Laser Facility,STFC Rutherford Appleton Laboratory;Ludwig-Maximilians-Universit?t München;BELLA Center,Lawrence Berkeley National Laboratory;Department of Nuclear Engineering and Radiological Sciences,University of Michigan;Ergodic LLC;Helmholtz-Zentrum Dresden-Rossendorf;Queen’s University Belfast).Control systems and data management for high-power laser facilities[J].High Power Laser Science and Engineering,2023,第5期
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Ying’an Chen,Yicheng Zhou,Zhipeng Qin,Guoqiang Xie,Peng Yuan,Jingui Ma,Liejia Qian(School of Physics and Astronomy).Spatiotemporally mode-locked soliton fiber laser at 2.8µm[J].High Power Laser Science and Engineering,2023,第5期
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H.H.An1,2,W.Wang1,2,J.Xiong1,2,C.Wang1,2,X.Pan3,2,X.P.Ouyang3,2,S.Jiang4,Z.Y.Xie1,2,P.P.Wang1,2,Y.L.Yao4,N.Hua3,2,Y.Wang3,2,Z.C.Jiang3,2,Q.Xiao3,2,F.C.Ding3,2,Y.T.Wan1,2,X.Liu1,2,R.R.Wang1,2,Z.H.Fang1,2,P.Q.Yang3,2,Y.E.Jiang3,2,P.Z.Zhang3,2,B.Q.Zhu3,2,J.R.Sun1,2,B.Qiao4,A.L.Lei1,2,J.Q.Zhu3,2(Shanghai Institute of Laser Plasma,China Academy of Engineering Physics;National Laboratory on High Power Laser and Physics;Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences;Center for Applied Physics and Technology,Peking University).Accelerated protons with energies up to 70 MeV based on the optimized SG-Ⅱ Peta-watt laser facility[J].High Power Laser Science and Engineering,2023,第5期
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Jian-Long Li1,Bo-Yuan Li2,Xin-Zhe Zhu1,Ze-Wu Bi1,Xin-Hui Wen1,Lin Lu1,Xiao-Hui Yuan1,3,Feng Liu1,3,Min Chen1,3(Key Laboratory for Laser Plasmas (Ministry of Education),School of Physics and Astronomy,Shanghai Jiao Tong University;Tsung-Dao Lee Institute,Shanghai Jiao Tong University;Collaborative Innovation Center of IFSA (CICIFSA),Shanghai Jiao Tong University).Generation of a curved plasma channel from a discharged capillary for intense laser guiding[J].High Power Laser Science and Engineering,2023,第5期
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Dong Yan1,Yue Yuan2,Yunpeng Wang3,Jiawei Fan1,Jiaze Wu1,Xiaoming Duan1,Sining Li1,Tongyu Dai1,Youlun Ju1(National Key Laboratory of Tunable Laser Technology,Harbin Institute of Technology;Department of Physics and Chemistry,PLA Army Academy of Special Operations;Institute of Laser Engineering,Faculty of Materials and Manufacturing,Beijing University of Technology).High-energy, alignment-insensitive, injection-seeded Q-switched Ho:yttrium aluminum garnet single-frequency laser[J].High Power Laser Science and Engineering,2023,第5期
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Yiheng Fan1,Hao Xiu1,Wei Lin1,Xuewen Chen1,Xu Hu1,Wenlong Wang1,Junpeng Wen1,Hao Tian1,Molei Hao1,Chiyi Wei1,Luyi Wang1,Xiaoming Wei1,Zhongmin Yang1,2(School of Physics and Optoelectronics,State Key Laboratory of Luminescent Materials and Devices,Guangdong Engineering Technology Research and Development Center of Special Optical Fiber Materials and Devices,Guangdong Provincial Key Laboratory of Fiber Laser Materials and Applied Techniques,South China University of Technology;Research Institute of Future Technology,South China Normal University).Nonlinear chirped pulse amplification for a 100-W-class GHz femtosecond all-fiber laser system at 1.5 μm[J].High Power Laser Science and Engineering,2023,第4期
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Filip Grepl1,2,Maksym Tryus1,Timofej Chagovets1,Daniele Margarone1(ELI Beamlines Facility,The Extreme Light Infrastructure ERIC;Faculty of Nuclear Sciences and Physical Engineering,Czech Technical University in Prague).Parametric amplification as a single-shot time-resolved off-harmonic probe for laser–matter interactions[J].High Power Laser Science and Engineering,2023,第4期
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Fukang Yin1,2,Juan Long1,2,Yaoxiang Liu1,Yingxia Wei1,Bin Zhu3,Kainan Zhou3,Tie-Jun Wang1,2,Yuxin Leng1,2,Ruxin Li1,2(State Key Laboratory of High Field Laser Physics,Shanghai Institute of Optics and Fine Mechanics and CAS Center for Excellence in Ultra-intense Laser Science,Chinese Academy of Sciences;Center of Materials Science and Optoelectronics Engineering,University of Chinese Academy of Sciences;Laser Fusion Research Center and Science & Technology on Plasma Physics Laboratory,China Academy of Engineering Physics).Pulse repetition-rate effect on the intensity inside a femtosecond laser filament in air[J].High Power Laser Science and Engineering,2023,第4期
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G.Pérez-Callejo1,2,V.Bouffetier2,3,L.Ceurvorst2,4,T.Goudal2,5,S.R.Klein6,D.Svyatskiy7,M.Holec8,P.Perez-Martin9,10,K.Falk9,10,11,A.Casner2,12,T.E.Weber7,G.Kagan13,M.P.Valdivia14,15(Departamento de Física Teórica Atómica y óptica,Universidad de Valladolid;Université de Bordeaux-CNRS-CEA,Centre Lasers Intenses et Applications (CELIA);European XFEL Gmb H;Laboratory for Laser Energetics;CEA-DAM;University of Michigan;Los Alamos National Laboratory;Lawrence Livermore National Laboratory;Helmholtz-Zentrum Dresden-Rossendorf;Technische Universit?t Dresden;Institute of Physics of the ASCR;CEA-CESTA;Blackett Laboratory,Imperial College London;Department of Astrophysics and Astronomy,The Johns Hopkins University;Center for Energy Research,University of California San Diego).Phase imaging of irradiated foils at the OMEGA EP facility using phase-stepping X-ray Talbot-Lau deflectometry[J].High Power Laser Science and Engineering,2023,第4期
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Linpeng Yu1,Jinhui Liang1,Qinghui Zeng1,Jiacheng Wang1,Xing Luo1,Jinzhang Wang1,Peiguang Yan1,Fanlong Dong1,Xing Liu2,Qitao Lü,Chunyu Guo1,Shuangchen Ruan1,2(Shenzhen Key Laboratory of Laser Engineering,Guangdong Provincial Key Laboratory of Micro/Nano Optomechatronics Engineering,Key Laboratory of Optoelectronic Devices and Systems of Ministry of Education and Guangdong Province,State Key Laboratory of Radio Frequency Heterogeneous Integration,College of Physics and Optoelectronic Engineering,Shenzhen University;Key Laboratory of Advanced Optical Precision Manufacturing Technology of Guangdong Higher Education Institutes,Shenzhen Technology University;Han’s Laser Technology Industry Group Co.Ltd.).High-power mid-infrared femtosecond master oscillator power amplifier Er:ZBLAN fiber laser system[J].High Power Laser Science and Engineering,2023,第4期
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Nils Wei?e,Leonard Doyle,Johannes Gebhard,Felix Balling,Florian Schweiger,Florian Haberstroh,Laura D.Geulig,Jinpu Lin,Faran Irshad,Jannik Esslinger,Sonja Gerlach,Max Gilljohann,Vignesh Vaidyanathan,Dennis Siebert,Andreas Münzer,Gregor Schilling,J?rg Schreiber,Peter G.Thirolf,Stefan Karsch,Andreas D?pp(Ludwig-Maximilians-Universit?t München).Tango Controls and data pipeline for petawatt laser experiments[J].High Power Laser Science and Engineering,2023,第4期
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Yiheng Fan,Hao Xiu,Wei Lin,Xuewen Chen,Xu Hu,Wenlong Wang,Junpeng Wen,Hao Tian,Molei Hao,Chiyi Wei,Luyi Wang,Xiaoming Wei,Zhongmin Yang(School of Physics and Optoelectronics,State Key Laboratory of Luminescent Materials and Devices,Guangdong Engineering Technology Research and Development Center of Special Optical Fiber Materials and Devices,Guangdong Provincial Key Laboratory of Fiber Laser Materials and Applied Techniques,South China University of Technology,Guangzhou,China; Research Institute of Future Technology,South China Normal University,Guangzhou,China).Nonlinear chirped pulse amplification for a 100-W-class GHz femtosecond all-fiber laser system at 1.5
 m[J].High Power Laser Science and Engineering,2023,第4期
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Duo Jin1,2,Zhenxu Bai1,2,3,Zhongan Zhao1,2,Yifu Chen1,2,Wenqiang Fan1,2,Yulei Wang1,2,Richard P.Mildren3,Zhiwei Lü1,2(Center for Advanced Laser Technology,Hebei University of Technology;Hebei Key Laboratory of Advanced Laser Technology and Equipment;MQ Photonics Research Centre,Department of Physics and Astronomy,Macquarie University).Linewidth narrowing in free-space-running diamond Brillouin lasers[J].High Power Laser Science and Engineering,2023,第4期
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Yannik Zobus1,2,Christian Brabetz2,Johannes Hornung2,Jonas B.Ohland2,3,Dirk Reemts2,Ji-Ping Zou3,Markus Loeser5,Daniel Albach5,Ulrich Schramm5,6,Vincent Bagnoud1,2,7(Technische Universit?t Darmstadt;GSI Helmholtzzentrum für Schwerionenforschung Gmb H;Laboratoire pour l'Utilisation des Lasers Intenses,CNRS,Ecole Polytechnique;Laboratoire pour l’Utilisation des Lasers Intenses,CNRS,Ecole Polytechnique;Helmholtz-Zentrum Dresden-Rossendorf;Technische Universit?t Dresden;Helmholtz-Institut Jena).Millijoule ultrafast optical parametric amplification as replacement for high-gain regenerative amplifiers[J].High Power Laser Science and Engineering,2023,第4期
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Zhipeng Liu1,Zhusong Mei1,Defeng Kong1,Zhuo Pan1,Shirui Xu1,Ying Gao1,Yinren Shou1,Pengjie Wang1,Zhengxuan Cao1,Yulan Liang1,Ziyang Peng1,Jiarui Zhao1,Shiyou Chen1,Tan Song1,Xun Chen1,Tianqi Xu1,Xueqing Yan1,2,3,Wenjun Ma1,2,3(State Key Laboratory of Nuclear Physics and Technology,and Key Laboratory of HEDP of the Ministry of Education,CAPT,Peking University;Beijing Laser Acceleration Innovation Center;Institute of Guangdong Laser Plasma Technology).Synchronous post-acceleration of laser-driven protons in helical coil targets by controlling the current dispersion[J].High Power Laser Science and Engineering,2023,第4期
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Hongyang Li1,2,3,Keyang Liu3,4,Xinliang Wang2,3,Xingyan Liu2,3,Xianze Meng2,3,Yanqi Liu2,3,Liwei Song2,3,Yuxin Leng2,3,Ruxin Li2,3(School of Physics Science and Engineering,Tongji University;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;XIOPM Center for Attosecond Science and Technology,State Key Laboratory of Transient Optics and Photonics,Xi'an Institute of Optics and Precision Mechanics,Chinese Academy of Sciences).Timing fluctuation correction for the front end of a 100-PW laser[J].High Power Laser Science and Engineering,2023,第4期
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N. Xu,M. J. V. Streeter,O. C. Ettlinger,H. Ahmed,S. Astbury,M. Borghesi,N. Bourgeois,C. B. Curry,S. J. D. Dann,N. P. Dover,T. Dzelzainis,V. Istokskaia,M. Gauthier,L. Giuffrida,G. D. Glenn,S. H. Glenzer,R. J. Gray,J. S. Green,G. S. Hicks,C. Hyland,M. King,B. Loughran,D. Margarone,O. McCusker,P. McKenna,C. Parisuaña,P. Parsons,C. Spindloe,D. R. Symes,F. Treffert,C. A. J. Palmer,Z. Najmudin.Versatile tape-drive target for high-repetition-rate laser-driven proton acceleration – CORRIGENDUM[J].High Power Laser Science and Engineering,2023,第4期
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Sunny Howard1,2,Jannik Esslinger2,Robin H.W.Wang1,Peter Norreys1,3,Andreas D?pp1,2(Department of Physics,Clarendon Laboratory,University of Oxford;Centre for Advanced Laser Applications,Ludwig-Maximilians-Universit?t München;John Adams Institute for Accelerator Science).Hyperspectral compressive wavefront sensing[J].High Power Laser Science and Engineering,2023,第3期
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Y.X.Wang1,2,S.M.Weng1,2,P.Li3,Z.C.Shen3,X.Y.Jiang1,2,J.Huang1,2,X.L.Zhu1,2,H.H.Ma1,2,X.B.Zhang1,2,4,X.F.Li1,2,Z.M.Sheng1,2,5,J.Zhang1,2,5(Key Laboratory for Laser Plasmas (MoE),School of Physics and Astronomy,Shanghai Jiao Tong University;Collaborative Innovation Center of IFSA,Shanghai Jiao Tong University;Research Center of Laser Fusion of China Academy of Engineering Physics;College of Physics and Electronics Engineering,Northwest Normal University;Tsung-Dao Lee Institute,Shanghai Jiao Tong University).Depolarization of intense laser beams by dynamic plasma density gratings[J].High Power Laser Science and Engineering,2023,第3期
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Kangnan Jiang1,2,Ke Feng1,Hao Wang1,Xiaojun Yang1,Peile Bai1,Yi Xu1,Yuxin Leng1,Wentao Wang1,Ruxin Li1,2(State Key Laboratory of High Field Laser Physics and CAS Center for Excellence in Ultra-intense Laser Science,Shanghai Institute of Optics and Fine Mechanics (SIOM),Chinese Academy of Sciences (CAS);School of Physical Science and Technology,Shanghai Tech University).Measurement of electron beam transverse slice emittance using a focused beamline[J].High Power Laser Science and Engineering,2023,第3期
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J.Goodman1,M.King1,2,E.J.Dolier1,R.Wilson1,R.J.Gray1,P.McKenna1,2(SUPA Department of Physics,University of Strathclyde;The Cockcroft Institute,Sci-Tech Daresbury).Optimization and control of synchrotron emission in ultraintense laser–solid interactions using machine learning[J].High Power Laser Science and Engineering,2023,第3期
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Zhen Wang,Chao Feng(Shanghai Advanced Research Institute,Chinese Academy of Sciences).Optical beat notes assisted attosecond soft X-ray pulse generation in high-gain free electron lasers[J].High Power Laser Science and Engineering,2023,第3期
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