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Lu Xingfa, Chen Deying, Xia Yuanqin, Wang Qi. X-ray lasers by optical field induced ionization[J]. LASER TECHNOLOGY, 1999, 23(6): 321-328.
Citation: Lu Xingfa, Chen Deying, Xia Yuanqin, Wang Qi. X-ray lasers by optical field induced ionization[J]. LASER TECHNOLOGY, 1999, 23(6): 321-328.
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X-ray lasers by optical field induced ionization

  • National Key Laboratory of Tunable Laser Technology, Institute of Opto-Electronics, Harbin Institute of Technology, Harbin, 150001

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  • Received Date: March 24, 1999
  • Published Date: November 24, 1999
    Graphical Abstract
    • Abstract
  • This paper summarized in detail the evolution of X-ray lasers in both recombination and electron collisional excitation regimes following optical field induced ionization in theory and experiment ,and these regimes are deemed to be new promising approaches for tabletop X-ray lasers .This work is valuable to the research of X-ray lasers,and in particular the research of X-ray lasers following optical field-induced ionization.
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    • References (30)
  • [1]
    Matthews D L,Hagelstein P L,Rosen M D et al.Phys Rev Lett,1985;54(2):110~113
    [2]
    Suckewer S,Skinner C H,Milchberg et al.Phys Rev Lett,1985;55(17):1753~1756
    [3]
    Hara T,Ando K,Kusakabe N et al.J A P,1989;29:1010~1012
    [4]
    Kim D,Skinner C H,Umesh G et al.Opt Lett,1989;14(13):665~667
    [5]
    Basu S,Hagelstein P L,Goodberlet J G et al.Appl Phys B,1993;57(5):303~307
    [6]
    Rocca J J,Shlyaptsev V,Tomasel F G et al.Phys Rev Lett,1994;73(16):2192~2195
    [7]
    Corkum P B,Burnett N H.OSA Proceedings Series,1988;2:225
    [8]
    Burnett N H,Corkum P B.J O S A B,1989;6(6):1195~1199
    [9]
    Corkum P B,Burnett N H,Brunel F.Phys Rev Lett,1989;62(11):1259~1262
    [10]
    Burnett N H,Enright G D.IEEE J Q E,1990;26(10):1797~1808
    [11]
    Jones W W,Ali A W.A P L,1975;26(6):450~451
    [12]
    Peyraud J,Peyraud N.J A P,1972;43(7):2993~2996
    [13]
    Amendt P,Eder D C,Wilks S C.Phys Rev Lett,1991;66(20):2589 ~2592
    [14]
    Eder D C,Amendt P,Wilks S C.Phys Rev A,1992;45(9):6761~6772
    [15]
    Lemoff B E,Barty C P J,Harris S E.Opt Lett,1994;19(8):569~571
    [16]
    王 骐,张杉杉,卢兴发 et al.光学学报,1999;19(2):201~205
    [17]
    Ammosov M V,Delone N B,Krainov V P.Sov Phys JETP,1986;64(6):1191~1194
    [18]
    Augst S,Strickland D,Meyerbofer D D et al.Phys Rev Lett,1989;63(20):2212~2215
    [19]
    Cowan R D.U of Calif Press,Berkeley,Calif,1981;Secs.8-1,16-1 and 18-13
    [20]
    Nagata Y,Midorikawa K,Kubodera S et al.Phys Rev Lett,1993;71(23):3774~3777
    [21]
    Eder D C,Amendt P,Dasilva L B et al.Physics Plasmas,1994;1(5):1744~1752
    [22]
    Krushelnick K M,Tighe W,Suckemer S.J O S A B,1996;13(2):306~311
    [23]
    Fill E,Bargstram S,Larsson Jet al.Phys Rew E,1995;51(6):6016~6027
    [24]
    Chichkov B N,Egbert A,Eichmann H et al.Phys Rev A,1995;52(2):1629~1639
    [25]
    Amendt P,Eder D C,London R A et al.SPIE,1993;1860:140
    [26]
    Sullivan A,Hamster H,Gordon R A et al.SPIE,1994;2012:234
    [27]
    Durfee III C G,Milchberg H M.Phys Rev Lett,1993;71(15):2409~2412
    [28]
    Korobkin D V,Nam C H,Suckewer S.Phys Rev Lett,1996;77(26):5206~5209
    [29]
    Lemoff B E,Yin G Y,Gordon C L et al.Phys Rev Lett,1995;74(9):1574~1577
    [30]
    Pretzler G,Fill E E.Phys Rev E,1997;56(2):2112~2117
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