首页 > 论文 > High Power Laser Science and Engineering > 5卷 > 2期(pp:14--1)

Exploring novel target structures for manipulating relativistic laser–plasma interaction

  • 摘要
  • 论文信息
  • 参考文献
  • 被引情况
  • PDF全文
分享:

Abstract

The improved laser-to-pedestal contrast ratio enabled by current high-power laser pulse cleaning techniques allows the fine features of the target survive before the main laser pulse arrives. We propose to introduce the nano-fabrication technologies into laser–plasma interaction to explore the novel effects of micro-structures. We found out that not only laser-driven particle sources but also the laser pulse itself can be manipulated by specifically designed micro-cylinder and -tube targets, respectively. The proposal was supported by full-3D particle-in-cell simulations and successful proof-of-principle experiments for the first time. We believe this would open a way to manipulate relativistic laser–plasma interaction at the micro-size level.

投稿润色
补充资料

DOI:10.1017/hpl.2017.12

基金项目:This work is supported by the AFOSR Basic Research Initiative (BRI) under contract FA9550-14-1-0085 and allocations of computing time from the Ohio Supercomputing Center. A.P. is supported by DFG Trnsregio TR18 (Germany).

收稿日期:2016-05-30

录用日期:2017-03-17

网络出版日期:2017-05-05

作者单位    点击查看

Liangliang Ji:Physics Department, The Ohio State University, Columbus, OH 43210, USAState Key Laboratory of High Field Laser Physics, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, ChinaCollaborative Innovation Center of IFSA (CICIFSA), Shanghai Jiao Tong University, Shanghai 200240, China
Sheng Jiang:Physics Department, The Ohio State University, Columbus, OH 43210, USA
Alexander Pukhov:Institut für Theoretische Physik I, Heinrich-Heine-Universit?t Düsseldorf, 40225 Düsseldorf, Germany
Richard Freeman:Physics Department, The Ohio State University, Columbus, OH 43210, USA
Kramer Akli:Physics Department, The Ohio State University, Columbus, OH 43210, USA

联系人作者:Liangliang Ji(ji.289@osu.edu)

【1】A.Jullien,S.Kourtev,O.Albert,G.Chériaux,J.Etchepare,N.Minkovski,?and S.M.Saltiel, 409 (2006).

【2】C.Thaury,F.Quéré,J.-P.Geindre,A.Levy,T.Ceccotti,P.Monot,M.Bougeard,F.Réau,P.d’Oliveira,P.Audebert,R.Marjoribanks,?and Ph.Martin, 424 (2007).

【3】B.Dromey,S.Kar,M.Zepf,?and P.Foster, 645 (2004).

【4】A.Lévy,T.Ceccotti,P.D’Oliveira,F.Réau,M.Perdrix,F.Quéré,P.Monot,M.Bougeard,H.Lagadec,P.Martin,J.-P.Geindre,?and P.Audebert, 310 (2007).

【5】J.Fischer?and M.Wegener, 22 (2013).

【6】A.Pukhov, 425 (1999).

【7】S.Jiang,L. L.Ji,H.Audesirk,K. M.George,J.Snyder,A.Krygier,P.Poole,C.Willis,R.Daskalova,E.Chowdhury,N. S.Lewis,D. W.Schumacher,A.Pukhov,R. R.Freeman,?and K. U.Akli, 085002 (2016).

【8】L. L.Ji,J.Snyder,A.Pukhov,R. R.Freeman,?and K. U.Akli, 23256 (2016).

【9】M. A.Unger,H.-P.Chou,T.Thorsen,A.Scherer,?and S. R.Quake, 113 (2000).

【10】C.Gahn,G. D.Tsakiris,A.Pukhov,J.Meyer-ter-Vehn,G.Pretzler,P.Thirolf,D.Habs,?and K. J.Witte, 4772 (1999).

【11】A.Pukhov,Z.-M.Sheng,?and J.Meyer-ter-Vehn, 2847 (1999).

【12】A. P. L.Robinson,A. V.Arefiev,?and D.Neely, 065002 (2013).

【13】S. C.Wilks?and W. L.Kruer, 1954 (1997).

【14】S.Jiang,A. G.Krygier,D. W.Schumacher,K. U.Akli,?and R. R.Freeman, 013106 (2014).

【15】L.Yi,A.Pukhov,P.Luu-Thanh,?and B.Shen, 115001 (2016).

【16】S. C.Wilks,W. L.Kruer,M.Tabak,?and A. B.Langdon, 1383 (1992).

【17】E. L.Clark,K.Krushelnick,M.Zepf,F. N.Beg,M.Tatarakis,A.Machacek,M. I. K.Santala,I.Watts,P. A.Norreys,?and A. E.Dangor, 670 (2000).

【18】S. C.Wilks,A. B.Langdon,T. E.Cowan,M.Roth,M.Singh,S.Hatchett,M. H.Key,D.Pennington,A.MacKinnon,?and R. A.Snavely, 542 (2001).

【19】R. A.Snavely,M. H.Key,S. P.Hatchett,T. E.Cowan,M.Roth,T. W.Phillips,M. A.Stoyer,E. A.Henry,T. C.Sangster,M. S.Singh,S. C.Wilks,A.MacKinnon,A.Offenberger,D. M.Pennington,K.Yasuike,A. B.Langdon,B. F.Lasinski,J.Johnson,M. D.Perry,?and E. M.Campbell, 2945 (2000).

【20】H.Schwoerer,S.Pfotenhauer,O.Jac?kel,K.-U.Amthor,B.Liesfeld,W.Ziegler,R.Sauerbrey,K. W. D.Ledingham,?and T.Esirkepov, 445 (2006).

【21】B. M.Hegelich,B. J.Albright,J.Cobble,K.Flippo,S.Letzring,M.Paffett,H.Ruhl,J.Schreiber,R. K.Schulze,?and J. C.Fernández, 441 (2006).

【22】I. A.Andriyash,R.Lehe,A.Lifschitz,C.Thaury,J.-M.Rax,K.Krushelnick,?and V.Malka, 4736 (2014).

【23】H.Chen,S. C.Wilks,J. D.Bonlie,E. P.Liang,J.Myatt,D. F.Price,D. D.Meyerhofer,?and P.Beiersdorfer, 105001 (2009).

【24】Y.Nodera,S.Kawata,N.Onuma,J.Limpouch,O.Klimo,?and T.Kikuchi, 046401 (2008).

【25】F.Wang,B.Shen,X.Zhang,Z.Jin,M.Wen,L.Ji,W.Wang,J.Xu,M. Y.Yu,?and J.Cary, 093112 (2009).

【26】O.Klimo,J.Psikal,J.Limpouch,J.Proska,F.Novotny,T.Ceccotti,V.Floquet,?and S.Kawata, 053028 (2011).

【27】D.Margarone,O.Klimo,I. J.Kim,J.Prok?pek,J.Limpouch,T. M.Jeong,T.Mocek,J.Pikal,H. T.Kim,J.Proka,K. H.Nam,L.tolcová,I. W.Choi,S. K.Lee,J. H.Sung,T. J.Yu,?and G.Korn, 234801 (2012).

【28】Y.Sentoku,K.Mima,H.Ruhl,Y.Toyama,R.Kodama,?and T. E.Cowan, 3083 (2004).

【29】E.Esarey,P.Sprangle,?and J.Krall, 1879 (1997).

【30】Y.Katzir,S.Eisenmann,Y.Ferber,A.Zigler,?and R. F.Hubbard, 031101 (2009).

【31】L.Cao,W.Yu,M. Y.Yu,X.Wang,Y.Gu,?and X. T.He, 093109 (2009).

【32】M.Cerchez,A. L.Giesecke,C.Peth,M.Toncian,B.Albertazzi,J.Fuchs,O.Willi,?and T.Toncian, 065003 (2013).

【33】M. A.Purvis,V. N.Shlyaptsev,R.Hollinger,C.Bargsten,A.Pukhov,A.Prieto,Y.Wang,B. M.Luther,L.Yin,S.Wang,?and J. J.Rocca, 796 (2013).

【34】J.Snyder,L. L.Ji,?and K. U.Akli,arXiv:1603.05596 (2016).

【35】D. B.Zou,H. B.Zhuo,X. H.Yang,T. P.Yu,F. Q.Shao,?and A.Pukhov, 063103 (2015).

【36】X.-L.Zhu,Y.Yin,T.-P.Yu,F.-Q.Shao,Z.-Y.Ge,W.-Q.Wang,?and J.-J.Liu, 053039 (2015).

引用该论文

Liangliang Ji, Sheng Jiang, Alexander Pukhov, Richard Freeman, and Kramer Akli, "Exploring novel target structures for manipulating relativistic laser–plasma interaction," High Power Laser Science and Engineering 5(2), e14 (2017)

您的浏览器不支持PDF插件,请使用最新的(Chrome/Fire Fox等)浏览器.或者您还可以点击此处下载该论文PDF