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Hideaki Takabe1,2,3,Yasuhiro Kuramitsu1,2(School of Engineering,Osaka University;Institute of Laser Engineering,Osaka University;Institute of Radiation Physics).Recent progress of laboratory astrophysics with intense lasers[J].High Power Laser Science and Engineering,2021,第4期
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G.Cristoforetti1,S.Hüller2,P.Koester1,L.Antonelli3,S.Atzeni4,F.Baffigi1,D.Batani5,C.Baird6,N.Booth6,M.Galimberti6,K.Glize7,A.Héron2,M.Khan3,P.Loiseau8,9,D.Mancelli5,M.Notley6,P.Oliveira6,O.Renner10,M.Smid11,A.Schiavi4,G.Tran8,N.C.Woolsey3,L.A.Gizzi1(Intense Laser Irradiation Laboratory,INO-CNR;Centre de Physique Théorique CPHT,CNRS,IP Paris,Ecole Polytechnique;York Plasma Institute,Department of Physics,University of York;Dipartimento SBAI,Università di Roma 'La Sapienza';Université de Bordeaux,CNRS,CEA;STFC Rutherford Appleton Lab,Central Laser Facility;Key Laboratory for Laser Plasmas (MOE),Shanghai Jiao Tong University;CEA,DAM,DIF;Université Paris-Saclay,CEA,LMCE;Institute of Physics,ELI Beamlines,Institute of Plasma Physics,Czech Academy of Sciences;Helmholtz-Zentrum Dresden-Rossendorf).Observation and modelling of stimulated Raman scattering driven by an optically smoothed laser beam in experimental conditions relevant for shock ignition[J].High Power Laser Science and Engineering,2021,第4期
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Jun Ye,Chenchen Fan,Jiangming Xu,Hu Xiao,Jinyong Leng,Pu Zhou(College of Advanced Interdisciplinary Studies,National University of Defense Technology).2-kW-level superfluorescent fiber source with flexible wavelength and linewidth tunable characteristics[J].High Power Laser Science and Engineering,2021,第4期
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Disheng Wei,Shuyi Mi,Ke Yang,Junhui Li,Jinwen Tang,Baoquan Yao,Tongyu Dai,Xiaoming Duan(National Key Laboratory of Tunable Laser Technology,Harbin Institute of Technology).202 W dual-end-pumped Tm:YLF laser with a VBG as an output coupler[J].High Power Laser Science and Engineering,2021,第4期
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Andrey Shaykin,Vladislav Ginzburg,Ivan Yakovlev,Anton Kochetkov,Alexey Kuzmin,Sergey Mironov,Ilya Shaikin,Sergey Stukachev,Vladimir Lozhkarev,Artem Prokhorov,Efim Khazanov(Institute of Applied Physics of the Russian Academy of Sciences).Use of KDP crystal as a Kerr nonlinear medium for compressing PW laser pulses down to 10 fs[J].High Power Laser Science and Engineering,2021,第4期
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A.Laso Garcia1;H.H?ppner1;A.Pelka1;C.B?htz1;E.Brambrink2;S.Di Dio Cafiso1;J.Dreyer1;S.G?de2;M.Hassan1;T.Kluge1;J.Liu2;M.Makita2;D.M?ller1;M.Nakatsutsumi2;T.R.Preston2;G.Priebe2;H.-P.Schlenvoigt1;J.-P.Schwinkendorf2;M.?míd1;A.-M.Talposi3;M.Toncian1;U.Zastrau2;U.Schramm1,4;T.E.Cowan1,4;T.Toncian1(Helmholtz-Zentrum Dresden-Rossendorf;European XFEL;Extreme Light Infrastructure-Nuclear Physics and Faculty of Physics, University of Bucharest;Technische Universit?t Dresden).ReLaX:the Helmholtz International Beamline for Extreme Fields high-intensity short-pulse laser driver for relativistic laser-matter interaction and strong-field science using the high energy density instrument at the European X-ray free electron laser fac[J].High Power Laser Science and Engineering,2021,第4期
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M.Scisciò1,F.Consoli1,M.Salvadori1,N.E.Andreev2,3,N.G.Borisenko4,S.Z?hter5,6,O.Rosmej5,6(ENEA,Fusion and Technologies for Nuclear Safety Department;Joint Institute for High Temperatures,Russian Academy of Sciences;Moscow Institute of Physics and Technology (National Research University);P.N.Lebedev Physical Institute,Russian Academy of Sciences;GSI Helmholtzzentrum für Schwerionenforschung GmbH;Goethe University Frankfurt).Transient electromagnetic fields generated in experiments at the PHELIX laser facility[J].High Power Laser Science and Engineering,2021,第4期
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Rumao Tao,Yu Liu,Lianghua Xie,Cong Gao,Min Li,Benjian Shen,Shan Huang,Honghuan Lin,Jianjun Wang,Feng Jing(Laser Fusion Research Center,China Academy of Engineering Physics).Static and dynamic mode evolution in high-power distributed side-coupled cladding-pumped fiber amplifiers[J].High Power Laser Science and Engineering,2021,第4期
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E.L.Clark1,A.Grigoriadis1,2,S.Petrakis1,2,I.Tazes1,3,G.Andrianaki1,4,A.Skoulakis1,Y.Orphanos1,5,E.Kaselouris1,I.Fitilis1,3,J.Chatzakis1,3,E.Bakarezos1,5,V.Dimitriou1,5,E.P.Benis1,2,N.A.Papadogiannis1,5,M.Tatarakis1,3(Institute of Plasma Physics and Lasers,Hellenic Mediterranean University Research Centre;Department of Physics,University of Ioannina;Department of Electronic Engineering,Hellenic Mediterranean University;School of Production Engineering and Management,Technical University of Crete;Department of Music Technology and Acoustics,Hellenic Mediterranean University).High-intensity laser-driven secondary radiation sources using the ZEUS 45 TW laser system at the Institute of Plasma Physics and Lasers of the Hellenic Mediterranean University Research Centre[J].High Power Laser Science and Engineering,2021,第4期
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Hiromitsu Kiriyama1,Yasuhiro Miyasaka1,Akira Kon1,Mamiko Nishiuchi1,Akito Sagisaka1,Hajime Sasao2,Alexander S.Pirozhkov1,Yuji Fukuda1,Koichi Ogura1,Kotaro Kondo1,Nicholas P.Dover1,Masaki Kando1(Kansai Photon Science Institute,National Institutes for Quantum Science and Technology (QST);Naka Fusion Institute,National Institutes for Quantum Science and Technology (QST)).Enhancement of pre-pulse and picosecond pedestal contrast of the petawatt J-KAREN-P laser[J].High Power Laser Science and Engineering,2021,第4期
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Li Wang1,Weidong Chen1,Yongguang Zhao1,2,Hanlin Yang3,4,Wei Jing3,Zhongben Pan3,Hui Huang3,Jiachen Liu4,Ji Eun Bae5,Fabian Rotermund5,Pavel Loiko6,Xavier Mateos7,Zhengping Wang8,Xinguang Xu8,Uwe Griebner1,Valentin Petrov1(Max Born Institute for Nonlinear Optics and Short Pulse Spectroscopy;Jiangsu Key Laboratory of Advanced Laser Materials and Devices,School of Physics and Electronic Engineering,Jiangsu Normal University;Institute of Chemical Materials,China Academy of Engineering Physics;Key Laboratory of Advanced Ceramics and Mechanical Technology of Ministry of Education,School of Materials Science and Engineering,Tianjin University;Department of Physics,Korea Advanced Institute of Science and Technology (KAIST);Centre de Recherche sur les Ions,les Matériaux et la Photonique (CIMAP),UMR 6252 CEA-CNRS-ENSICAEN,Université de Caen;Física i Cristal·lografia de Materials i Nanomaterials (FiCMA-FiCNA),Universitat Rovira i Virgili (URV);State Key Laboratory of Crystal Materials and Institute of Crystal Materials,Shandong University).Power-scalable sub-100-fs Tm laser at 2.08 μm[J].High Power Laser Science and Engineering,2021,第4期
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D.Shokov1,2,M.Murakami2,J.J.Honrubia3(Graduate School of Engineering,Osaka University;Institute of Laser Engineering,Osaka University;ETSI Aeronáutica y del Espacio,Universidad Politécnica de Madrid).Laser scaling for generation of megatesla magnetic fields by microtube implosions[J].High Power Laser Science and Engineering,2021,第4期
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J.Bromage,S.-W.Bahk,M.Bedzyk,I.A.Begishev,S.Bucht,C.Dorrer,C.Feng,C.Jeon,C.Mileham,R.G.Roides,K.Shaughnessy,M.J.Shoup Ⅲ,M.Spilatro,B.Webb,D.Weiner,J.D.Zuegel(Laboratory for Laser Energetics,University of Rochester).MTW-OPAL:a technology development platform for ultra-intense optical parametric chirped-pulse amplification systems[J].High Power Laser Science and Engineering,2021,第4期
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Hao Sun1,2,Xiaofan Wang3,4,Chao Feng5,Lingjun Tu1,2,Weijie Fan1,2,Bo Liu5(Shanghai Institute of Applied Physics,Chinese Academy of Sciences;University of Chinese Academy of Sciences;Institute of Advanced Science Facilities;Southern University of Science and Technology,College of Science;Shanghai Advanced Research Institute,Chinese Academy of Sciences).Coherent optical vortex generation with multiple topological charges based on a seeded free electron laser[J].High Power Laser Science and Engineering,2021,第4期
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Xinhua Xie1,Yunpei Deng1,Steven L.Johnson1,2(Swiss FEL,Paul Scherrer Institute;Institute for Quantum Electronics,Physics Department,ETH Zurich).Compact and robust supercontinuum generation and post-compression using multiple thin plates[J].High Power Laser Science and Engineering,2021,第4期
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S.Atzeni1;D.Batani2;C.N.Danson3,4;L.A.Gizzi5;M.Perlado6;M.Tatarakis7,8;V.Tikhonchuk2,9;L.Volpe10,11(Dipartimento SBAI, Università di Roma "La Sapienza";CELIA, Université de Bordeaux±CNRS±CEA;AWE;Centre for Intertial Fusion Studies, Blackett Laboratory, Imperial College London;Istituto Nazionale di Ottica, Consiglio Nazionale delle Ricerche;Instituto Fusión Nuclear "Guillermo Velarde" Universidad Politecnica;Institute of Plasma Physics and Lasers, Hellenic Mediterranean University Research Centre;Department of Electronic Engineering, Hellenic Mediterranean University;ELI-Beamlines Center, Institute of Physics, Czech Academy of Sciences;Centro de Laseres Pulsados (CLPU);Laser-Plasma Chair at the University of Salamanca).An evaluation of sustainability and societal impact of high-power laser and fusion technologies:a case for a new European research infrastructure[J].High Power Laser Science and Engineering,2021,第4期
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C.Emma1,J.Van Tilborg2,R.Assmann3,S.Barber2,A.Cianchi4,S.Corde5,M.E.Couprie6,R.D'Arcy3,M.Ferrario4,A.F.Habib7,B.Hidding7,M.J.Hogan1,C.B.Schroeder2,A.Marinelli1,M.Labat6,R.Li8,J.Liu8,A.Loulergue6,J.Osterhoff3,A.R.Maier3,B.W.J.Mc Neil9,10,W.Wang8(SLAC National Accelerator Laboratory;BELLA Center,Lawrence Berkeley National Laboratory;Deutsches Elektronen-Synchrotron DESY;INFN-LNF;LOA,ENSTA Paris,CNRS,Ecole Polytechnique,Institut Polytechnique de Paris;Synchrotron SOLEIL;Scottish Centre for the Application of Plasma-Based Accelerators SCAPA,Department of Physics,University of Strathclyde,Scottish Universities Physics Alliance SUPA;Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences;Department of Physics,University of Strathclyde,Scottish Universities Physics Alliance SUPA;Cockcroft Institute).Free electron lasers driven by plasma accelerators:status and near-term prospects[J].High Power Laser Science and Engineering,2021,第4期
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P.Cinquegrana,A.Demidovich,G.Kurdi,I.Nikolov,P.Sigalotti,P.Susnjar,M.B.Danailov(Elettra-Sincrotrone Trieste).The seed laser system of the FERMI free-electron laser:design, performance and near future upgrades[J].High Power Laser Science and Engineering,2021,第4期
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S.Bettoni1,A.Cavalieri1,2,A.Dax1,E.Divall1,C.P.Hauri3,S.Hunziker4,M.Huppert1,M.Kaiser1,M.Paraliev1,C.Sydlo1,C.Vicario1,A.Trisorio1(Paul Scherrer Institut;University of Bern;TRUMPF Switzerland;HUBER+SUHNER AG).Overview of SwissFEL dual-photocathode laser capabilities and perspectives for exotic FEL modes[J].High Power Laser Science and Engineering,2021,第4期
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Yulan Li1,2,Jie Ding1,2,Zhenxu Bai1,2,3,Xuezong Yang1,2,3,Yuqi Li1,2,Jingling Tang1,2,Yu Zhang1,2,Yaoyao Qi1,2,Yulei Wang1,2,Zhiwei Lu1,2(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).Diamond Raman laser:a promising high-beam-quality and low-thermal-effect laser[J].High Power Laser Science and Engineering,2021,第3期
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Pengfei Ma,Hu Xiao,Wei Liu,Hanwei Zhang,Xiaolin Wang,Jinyong Leng,Pu Zhou(College of Advanced Interdisciplinary Studies,National University of Defense Technology).All-fiberized and narrow-linewidth 5 kW power-level fiber amplifier based on a bidirectional pumping configuration[J].High Power Laser Science and Engineering,2021,第3期
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Jiangshuoxue Han,Yang Liu,Zejiang Deng,Gehui Xie,Daping Luo,Chenglin Gu,Lian Zhou,Wenxue Li(State Key Laboratory of Precision Spectroscopy,East China Normal University).Optimizing noise characteristics of mode-locked Yb-doped fiber laser using gain-induced RIN-transfer dynamics[J].High Power Laser Science and Engineering,2021,第3期
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Lingfa Zeng1,Xiaolin Wang1,2,3,Baolai Yang1,2,3,Hanwei Zhang1,2,3,Xiaojun Xu1,2,3(College of Advanced Interdisciplinary Studies,National University of Defense Technology;State Key Laboratory of Pulsed Power Laser Technology;Hunan Provincial Key Laboratory of High Energy Laser Technology).A 3.5-kW near-single-mode oscillating–amplifying integrated fiber laser[J].High Power Laser Science and Engineering,2021,第3期
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M.Cipriani1,S.Yu.Gus’kov2,F.Consoli1,R.De Angelis1,A.A.Rupasov2,P.Andreoli1,G.Cristofari1,G.Di Giorgio1,M.Salvadori1,3,4(ENEA,Fusion and Technologies for Nuclear Safety Department,C.R.Frascati;Lebedev Physical Institute;Università di Roma La Sapienza;INRS-EMT).Time-dependent measurement of high-power laser light reflection by low-Z foam plasma[J].High Power Laser Science and Engineering,2021,第3期
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Dongyu Yan1,Bowen Liu1,Defeng Zou1,Jie Guo2,Yuxi Chu2,Youjian Song2,Minglie Hu2(Ultrafast Laser Laboratory,School of Precision Instrument and Optoelectronics Engineering,Key Laboratory of Optoelectronic Information Technology(Ministry of Education),Tianjin University;Ultrafast Laser Laboratory,School of Precision Instrument and Optoelectronics Engineering,Key Laboratory of Optoelectronic Information Technology (Ministry of Education),Tianjin University).Spectral filtering effect on multi-pulsing induced by chirped fiber Bragg grating in dispersion-managed mode-locked Yb-doped fiber lasers[J].High Power Laser Science and Engineering,2021,第3期
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Yinxu Bian1,2,Kerong Jiao1,2,Xuecheng Wu1,2,Hua Shen1,2,3,Feiyan Yang1,2,Rihong Zhu1,2(School of Electronic Engineering and Optoelectronic Technology,Nanjing University of Science and Technology;MIIT Key Laboratory of Advanced Solid Laser,Nanjing University of Science and Technology;Department of Material Science and Engineering,University of California Los Angeles).Utilizing phase-shifted long-period fiber grating to suppress spectral broadening of a high-power fiber MOPA laser system[J].High Power Laser Science and Engineering,2021,第3期
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Shengzhen Yi1,2,Feng Zhang3,Qiushi Huang1,2,Lai Wei3,Yuqiu Gu3,Zhanshan Wang1,2(MOE Key Laboratory of Advanced Micro-Structured Materials,Tongji University;School of Physics Science and Engineering,Tongji University;Research Center of Laser Fusion,China Academy of Engineering Physics).High-resolution X-ray flash radiography of Ti characteristic lines with multilayer Kirkpatrick–Baez microscope at the Shenguang-Ⅱ Update laser facility[J].High Power Laser Science and Engineering,2021,第3期
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Hao Zhang1,Jie Zhao1,Yanting Hu1,Qianni Li1,Yu Lu1,Yue Cao1,Debin Zou1,Zhengming Sheng2,3,4,Francesco Pegoraro5,Paul Mc Kenna2,Fuqiu Shao1,Tongpu Yu1(Department of Physics,National University of Defense Technology;SUPA,Department of Physics,University of Strathclyde;Collaborative Innovation Center of IFSA (CICIFSA),Key Laboratory for Laser Plasmas (MoE) and School of Physics and Astronomy,Shanghai Jiao Tong University;Tsung-Dao Lee Institute;Department of Physics Enrico Fermi,University of Pisa,and CNR/INO).Efficient bright γ-ray vortex emission from a laser-illuminated light-fan-in-channel target[J].High Power Laser Science and Engineering,2021,第3期
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Xinlin Lü1,2,Yujie Peng1,Wenyu Wang1,3,Yuanan Zhao4,Xiangyu Zhu4,Yuxin Leng1(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);Center of Materials Science and Optoelectronics Engineering,University of Chinese Academy of Sciences;School of Optical and Electronic Information,Huazhong University of Science and Technology;Laboratory of Thin Film Optics,Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences).High-energy, high-repetition-rate ultraviolet pulses from an efficiency-enhanced, frequency-tripled laser[J].High Power Laser Science and Engineering,2021,第3期
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K.Batani1;A.Aliverdiev2,3;R.Benocci4;R.Dezulian5;A.Amirova6;E.Krousky7,8;M.Pfeifer7,8;J.Skala7;R.Dudzak7,8;W.Nazarov9;D.Batani10,11(IPPLM;IGRRE JIHT RAS;Dagestan State University;Università di Milano Bicocca;Liceo Scientifico ‘Galileo Galilei’;IP DFRC RAS;Institute of Physics, Czech Academy of Sciences;Institute of Plasma Physics, Czech Academy of Sciences;Independent Foam Target Supplier;University Bordeaux,CEA, CNRS;Plasma Physics Department, National Research Nuclear University MEPhI).Shock dynamics and shock collision in foam layered targets[J].High Power Laser Science and Engineering,2021,第3期
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