1s(2) of helium -like nitrogen ion. The emission spectrum with argon target covers all the water window range. Laboratory and computer experiments have been performed for both target gases. The spatial distributions of emitted energy in the water window spectral range were compared. The total emitted energy with argon was one order higher than with nitrogen"> 1s(2) of helium -like nitrogen ion. The emission spectrum with argon target covers all the water window range. Laboratory and computer experiments have been performed for both target gases. The spatial distributions of emitted energy in the water window spectral range were compared. The total emitted energy with argon was one order higher than with nitrogen"> XUV radiation from gaseous nitrogen and argon target laser plasmas
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XUV radiation from gaseous nitrogen and argon target laser plasmas

  1. 1.
    0388045 - ÚFP 2013 RIV GB eng J - Journal Article
    Vrba, Pavel - Vrbová, M. - Brůža, P. - Pánek, D. - Krejčí, F. - Kroupa, M. - Jakůbek, J.
    XUV radiation from gaseous nitrogen and argon target laser plasmas.
    Journal of Physics Conference Series. Roč. 370, č. 1 (2012), s. 012049. ISSN 1742-6588.
    [Latin American Workshop on Plasma Physics (LAWPP 2011)/14/. Mar del Plata, 20.11.2011-25.11.2011]
    R&D Projects: GA MŠMT LA08024; GA MŠMT(CZ) LC528
    Institutional research plan: CEZ:AV0Z20430508
    Keywords : Laser plasma source of XUV radiation in water window range * RHMD Z* engine code
    Subject RIV: BH - Optics, Masers, Lasers
    http://iopscience.iop.org/1742-6596/370/1/012049/pdf/1742-6596_370_1_012049.pdf

    Laser plasma created in gaseous target is studied as a source of radiation in the "water window" wavelength range. Plasma is created by focusing an 800 mJ/7 ns Nd:YAG laser pulse into the gas-puff target. Using nitrogen gas results in emission of an intense quasi-monochromatic radiation with the wavelength 2.88 nm, corresponding to the quantum transition 1s2p -> 1s(2) of helium -like nitrogen ion. The emission spectrum with argon target covers all the water window range. Laboratory and computer experiments have been performed for both target gases. The spatial distributions of emitted energy in the water window spectral range were compared. The total emitted energy with argon was one order higher than with nitrogen
    Permanent Link: http://hdl.handle.net/11104/0216885

     
     
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