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    Trapping and release of deuterium in helium-induced tungsten fuzz at low temperature

    New search for: K. Saito
    New search for: D. Hwangbo
    New search for: M. Miyamoto
    New search for: H. Yoshida
    New search for: R. Sasaki
    New search for: S. Murakami
    New search for: M. Sakamoto

    The release of deuterium (D) atoms from a nanostructure ‘fuzz’ tungsten (W) after a sequential plasma irradiation of helium (He) and D was explored. Thermal desorption spectroscopy revealed that more than 60% of total D amount was already released at >423 K. A sophisticated measurement with an aberration-corrected scanning TEM combined with electron energy-loss spectrometer (STEM-EELS) directly showed the trapping of D atoms into He bubbles after the plasma irradiation and the release of D from the He bubbles at elevated temperature at 423 K. The He bubbles containing D were characterized by (i) relatively large volume and (ii) small He energy-loss shift below 2 eV. It is suggested that the shifts in the energy-loss peaks of He and D could be used as indicators of D absorption within He bubbles.

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    Trapping and release of deuterium in helium-induced tungsten fuzz at low temperature

    New search for: K. Saito
    New search for: D. Hwangbo
    New search for: M. Miyamoto
    New search for: H. Yoshida
    New search for: R. Sasaki
    New search for: S. Murakami
    New search for: M. Sakamoto

    The release of deuterium (D) atoms from a nanostructure ‘fuzz’ tungsten (W) after a sequential plasma irradiation of helium (He) and D was explored. Thermal desorption spectroscopy revealed that more than 60% of total D amount was already released at >423 K. A sophisticated measurement with an aberration-corrected scanning TEM combined with electron energy-loss spectrometer (STEM-EELS) directly showed the trapping of D atoms into He bubbles after the plasma irradiation and the release of D from the He bubbles at elevated temperature at 423 K. The He bubbles containing D were characterized by (i) relatively large volume and (ii) small He energy-loss shift below 2 eV. It is suggested that the shifts in the energy-loss peaks of He and D could be used as indicators of D absorption within He bubbles.

    Access

    Download

    Trapping and release of deuterium in helium-induced tungsten fuzz at low temperature

    New search for: K. Saito
    New search for: D. Hwangbo
    New search for: M. Miyamoto
    New search for: H. Yoshida
    New search for: R. Sasaki
    New search for: S. Murakami
    New search for: M. Sakamoto

    The release of deuterium (D) atoms from a nanostructure ‘fuzz’ tungsten (W) after a sequential plasma irradiation of helium (He) and D was explored. Thermal desorption spectroscopy revealed that more than 60% of total D amount was already released at >423 K. A sophisticated measurement with an aberration-corrected scanning TEM combined with electron energy-loss spectrometer (STEM-EELS) directly showed the trapping of D atoms into He bubbles after the plasma irradiation and the release of D from the He bubbles at elevated temperature at 423 K. The He bubbles containing D were characterized by (i) relatively large volume and (ii) small He energy-loss shift below 2 eV. It is suggested that the shifts in the energy-loss peaks of He and D could be used as indicators of D absorption within He bubbles.

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    Download

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    Download

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    Document information
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    Title:

    Trapping and release of deuterium in helium-induced tungsten fuzz at low temperature

    Contributors:

    K. Saito (author) / D. Hwangbo (author) / M. Miyamoto (author) / H. Yoshida (author) / R. Sasaki (author) / S. Murakami (author) / M. Sakamoto (author)

    Published in:

    Nuclear Materials and Energy, Vol 42, Iss , Pp 101859- (2025)

    Publication date:

    2025

    ISSN:

    2352-1791

    DOI:

    https://doi.org/10.1016/j.nme.2024.101859

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Deuterium retention , Tungsten fuzz , Helium bubble , TDS , STEM-EELS , Nuclear engineering. Atomic power , TK9001-9401

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

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