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    ERO modeling of beryllium erosion by helium plasma in experiments at PISCES-B

    New search for: D. Borodin
    New search for: D. Nishijima
    New search for: R.P. Doerner
    New search for: S. Brezinsek
    New search for: A. Kreter
    New search for: A. Kirschner
    New search for: J. Romazanov
    New search for: I. Borodkina
    New search for: A. Eksaeva
    New search for: E. Marenkov
    New search for: Ch. Linsmeier

    The beryllium erosion by helium plasma irradiation is studied at the PISCES-B linear plasma device and interpreted using the accompanying simulations by the ERO code. The influence of plasma conditions and varying negative biasing of the Be plasma target on BeI and BeII absolute line intensities are reproduced in detail by the simulations. The synthetic axial line intensity shapes and line ratios match with experiment. This indicates that atomic data are quite accurate. The initial population state of quasi-metastable 3P level in BeI is found to be MS:GS= 0.33:1 for all conditions. The yields determined by the modeling interpretation are compared to the SDTrimSP code simulations in the binary collision approximation. Keywords: Beryllium, Erosion, Helium, ERO code, PISCES-B, Spectroscopy

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    ERO modeling of beryllium erosion by helium plasma in experiments at PISCES-B

    New search for: D. Borodin
    New search for: D. Nishijima
    New search for: R.P. Doerner
    New search for: S. Brezinsek
    New search for: A. Kreter
    New search for: A. Kirschner
    New search for: J. Romazanov
    New search for: I. Borodkina
    New search for: A. Eksaeva
    New search for: E. Marenkov
    New search for: Ch. Linsmeier

    The beryllium erosion by helium plasma irradiation is studied at the PISCES-B linear plasma device and interpreted using the accompanying simulations by the ERO code. The influence of plasma conditions and varying negative biasing of the Be plasma target on BeI and BeII absolute line intensities are reproduced in detail by the simulations. The synthetic axial line intensity shapes and line ratios match with experiment. This indicates that atomic data are quite accurate. The initial population state of quasi-metastable 3P level in BeI is found to be MS:GS= 0.33:1 for all conditions. The yields determined by the modeling interpretation are compared to the SDTrimSP code simulations in the binary collision approximation. Keywords: Beryllium, Erosion, Helium, ERO code, PISCES-B, Spectroscopy

    Access

    Download

    ERO modeling of beryllium erosion by helium plasma in experiments at PISCES-B

    New search for: D. Borodin
    New search for: D. Nishijima
    New search for: R.P. Doerner
    New search for: S. Brezinsek
    New search for: A. Kreter
    New search for: A. Kirschner
    New search for: J. Romazanov
    New search for: I. Borodkina
    New search for: A. Eksaeva
    New search for: E. Marenkov
    New search for: Ch. Linsmeier

    The beryllium erosion by helium plasma irradiation is studied at the PISCES-B linear plasma device and interpreted using the accompanying simulations by the ERO code. The influence of plasma conditions and varying negative biasing of the Be plasma target on BeI and BeII absolute line intensities are reproduced in detail by the simulations. The synthetic axial line intensity shapes and line ratios match with experiment. This indicates that atomic data are quite accurate. The initial population state of quasi-metastable 3P level in BeI is found to be MS:GS= 0.33:1 for all conditions. The yields determined by the modeling interpretation are compared to the SDTrimSP code simulations in the binary collision approximation. Keywords: Beryllium, Erosion, Helium, ERO code, PISCES-B, Spectroscopy

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    Download

    Access

    Download

    Page navigation

    Document information
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    Title:

    ERO modeling of beryllium erosion by helium plasma in experiments at PISCES-B

    Contributors:

    D. Borodin (author) / D. Nishijima (author) / R.P. Doerner (author) / S. Brezinsek (author) / A. Kreter (author) / A. Kirschner (author) / J. Romazanov (author) / I. Borodkina (author) / A. Eksaeva (author) / E. Marenkov (author)

    Published in:

    Nuclear Materials and Energy, Vol 12, Iss , Pp 1157-1162 (2017)

    Publication date:

    2017

    ISSN:

    2352-1791

    DOI:

    https://doi.org/10.1016/j.nme.2017.05.004

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Nuclear engineering. Atomic power , TK9001-9401

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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