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Li Sining, Liu Peng, Wang Qi, Yang Dawei. Experimental design of X-ray laser excited by capillary discharge[J]. LASER TECHNOLOGY, 2001, 25(2): 101-104.
Citation: Li Sining, Liu Peng, Wang Qi, Yang Dawei. Experimental design of X-ray laser excited by capillary discharge[J]. LASER TECHNOLOGY, 2001, 25(2): 101-104.

Experimental design of X-ray laser excited by capillary discharge

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  • Received Date: November 05, 1999
  • Revised Date: February 20, 2000
  • Published Date: March 24, 2001
  • Recently the studies on generation of X-ray laser excited by capillary discharge are quite active and remarkable progress has been made.The development in this field is focused on how to make compact and practical ultra-wavelength laser.In this paper,significant progress is introduced.The development and difficulty about generation of X-ray laser by capillary discharge is expounded,and recombination and laser schemes are analyzed.
  • [1]
    Da Silva L B,MacGowan B J,Mrowka S et al. Opt Lett,1993;18:1174
    [2]
    Carrilon A,Chen H Z, Dhez P et al. Phys Rev Lett,1992;68:2917
    [3]
    Suckewer S,Skinner C H,Milchberg H et al. Phys Rev Lett,1985;35(27): 1004
    [4]
    Zhou Ch,Wang Q,Ma Z G et al. SPIE,1992;1726:544
    [5]
    Rocca J J,Beethe D C,Marconi M C.Opt Lett,1988;13(7):565~567
    [6]
    Steden C,Kunze H J. Phys Lett(A),1990;151(9):534~537
    [7]
    Shin H J,Kim D E,Nyong T.Phys Rev(E),1994;50(2):1376~1382
    [8]
    Rocca J J,Tomasel F G,Marconi M C et al. Phys Plasmas,1995;2(6):2547~2554
    [9]
    Rocca J J,Clark D P,Chilla J L A et al. Phys Rev Lett,1996;77:1476~1479
    [10]
    Tomasel F G,Rocca J J,Shlyaptsev V N et al. Phys Rev(A),1997;55(2): 1437~1440
    [11]
    Rocca J J,Cortazar O D,Szapiro B et al. Phys Rev(E),1993;47(2):1299~1304
    [12]
    Benware B R,Macchietto C D,Moreno C H et al. Phys Rev Lett,1998;81:5 804
    [13]
    Benware B R,Moreno C H,Burd D J et al.Opt Lett,1997;22(11):796~798
    [14]
    Macchietto C D, Benware B R, Rocca J J et al. Opt Lett, 1999;24(16):1115~1117
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