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    A validated ballistic-He fuzz-growth model for high temperature erosive-plasma regimes

    New search for: M.I. Patino
    New search for: M.J. Baldwin

    An analytical model of helium-induced fuzz growth on heated tungsten (Patino et al., 2023) is expanded to include the effects of material exposure temperature via an Arrhenius relation and helium-induced sputtering. The expanded model is able to replicate experimental measurements of fuzz thickness for a range of helium fluences from 0.7–110×1026 m−2, sample temperatures from 993–1300 K, and ion energies from 50–500 eV.

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    A validated ballistic-He fuzz-growth model for high temperature erosive-plasma regimes

    New search for: M.I. Patino
    New search for: M.J. Baldwin

    An analytical model of helium-induced fuzz growth on heated tungsten (Patino et al., 2023) is expanded to include the effects of material exposure temperature via an Arrhenius relation and helium-induced sputtering. The expanded model is able to replicate experimental measurements of fuzz thickness for a range of helium fluences from 0.7–110×1026 m−2, sample temperatures from 993–1300 K, and ion energies from 50–500 eV.

    Access

    Download

    A validated ballistic-He fuzz-growth model for high temperature erosive-plasma regimes

    New search for: M.I. Patino
    New search for: M.J. Baldwin

    An analytical model of helium-induced fuzz growth on heated tungsten (Patino et al., 2023) is expanded to include the effects of material exposure temperature via an Arrhenius relation and helium-induced sputtering. The expanded model is able to replicate experimental measurements of fuzz thickness for a range of helium fluences from 0.7–110×1026 m−2, sample temperatures from 993–1300 K, and ion energies from 50–500 eV.

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    Download

    Access

    Download

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    Document information
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    Title:

    A validated ballistic-He fuzz-growth model for high temperature erosive-plasma regimes

    Contributors:

    M.I. Patino (author) / M.J. Baldwin (author)

    Published in:

    Nuclear Materials and Energy, Vol 40, Iss , Pp 101700- (2024)

    Publication date:

    2024

    ISSN:

    2352-1791

    DOI:

    https://doi.org/10.1016/j.nme.2024.101700

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Tungsten , Helium , Fuzz , Nanostructure , Sputtering , Plasma–material interactions , Nuclear engineering. Atomic power , TK9001-9401

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

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