Deuterium retention behavior in simultaneously He+–D2                             + implanted tungsten

Qilai Zhou; Keisuke Azuma; Akihiro Togari; Miyuki Yajima; Masayuki Tokitani; Suguru Masuzaki; Naoaki Yoshida; Masanori Hara; Yuji Hatano; Yasuhisa Oya

doi:10.1016/j.nme.2018.06.012

Deuterium retention behavior in simultaneously He⁺–D₂ ⁺ implanted tungsten

Qilai Zhou^*, Keisuke Azuma, Akihiro Togari, Miyuki Yajima, Masayuki Tokitani, Suguru Masuzaki, Naoaki Yoshida, Masanori Hara, Yuji Hatano, Yasuhisa Oya

^*Corresponding author for this work

Hydrogen Isotope Research Center, Organization for Promotion of Research

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Poly-crystalline tungsten (W) samples were simultaneously irradiated with Helium (He) and Deuterium (D) ions using the triple-ion implantation device. He effect on D retention and transportation was studied using different combination of ion energies and He/D flux ratios in the simultaneous implantation. The experimental results show that D trapping at dislocation loops is significantly reduced in the case of 3 keV He⁺–3 keV D₂ ⁺at He/D flux ratios over 0.6. D trapping by stronger trapping sites such as vacancies and vacancy clusters showed less dependence on the flux ratio. On the contrary, the D retention increases at each He/D flux ratio in the case of 3 keV He⁺–1 keV D₂ ⁺compared to only D₂ ⁺ implantation even the He/D flux ratio reaches a value of 1.0. TEM observations confirmed that dense dislocation loops are formed rather than He bubbles, which is responsible for the enhanced D retention in W.

Original language	English
Pages (from-to)	76-81
Number of pages	6
Journal	Nuclear Materials and Energy
Volume	16
DOIs	https://doi.org/10.1016/j.nme.2018.06.012
State	Published - 2018/08

Keywords

D retention
Flux ratio
Helium
Simultaneous implantation
Thermal desorption spectroscopy
Transportation

ASJC Scopus subject areas

Nuclear and High Energy Physics
Nuclear Energy and Engineering
Materials Science (miscellaneous)

Access to Document

10.1016/j.nme.2018.06.012

Cite this

@article{80d2ee9ecb8e49c6b949adea97cb5dce,

title = "Deuterium retention behavior in simultaneously He+–D2 + implanted tungsten",

abstract = "Poly-crystalline tungsten (W) samples were simultaneously irradiated with Helium (He) and Deuterium (D) ions using the triple-ion implantation device. He effect on D retention and transportation was studied using different combination of ion energies and He/D flux ratios in the simultaneous implantation. The experimental results show that D trapping at dislocation loops is significantly reduced in the case of 3 keV He+–3 keV D2 +at He/D flux ratios over 0.6. D trapping by stronger trapping sites such as vacancies and vacancy clusters showed less dependence on the flux ratio. On the contrary, the D retention increases at each He/D flux ratio in the case of 3 keV He+–1 keV D2 +compared to only D2 + implantation even the He/D flux ratio reaches a value of 1.0. TEM observations confirmed that dense dislocation loops are formed rather than He bubbles, which is responsible for the enhanced D retention in W.",

keywords = "D retention, Flux ratio, Helium, Simultaneous implantation, Thermal desorption spectroscopy, Transportation",

author = "Qilai Zhou and Keisuke Azuma and Akihiro Togari and Miyuki Yajima and Masayuki Tokitani and Suguru Masuzaki and Naoaki Yoshida and Masanori Hara and Yuji Hatano and Yasuhisa Oya",

note = "Publisher Copyright: {\textcopyright} 2018",

year = "2018",

month = aug,

doi = "10.1016/j.nme.2018.06.012",

language = "英語",

volume = "16",

pages = "76--81",

journal = "Nuclear Materials and Energy",

issn = "2352-1791",

publisher = "Elsevier Ltd.",

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TY - JOUR

T1 - Deuterium retention behavior in simultaneously He+–D2 + implanted tungsten

AU - Zhou, Qilai

AU - Azuma, Keisuke

AU - Togari, Akihiro

AU - Yajima, Miyuki

AU - Tokitani, Masayuki

AU - Masuzaki, Suguru

AU - Yoshida, Naoaki

AU - Hara, Masanori

AU - Hatano, Yuji

AU - Oya, Yasuhisa

PY - 2018/8

Y1 - 2018/8

N2 - Poly-crystalline tungsten (W) samples were simultaneously irradiated with Helium (He) and Deuterium (D) ions using the triple-ion implantation device. He effect on D retention and transportation was studied using different combination of ion energies and He/D flux ratios in the simultaneous implantation. The experimental results show that D trapping at dislocation loops is significantly reduced in the case of 3 keV He+–3 keV D2 +at He/D flux ratios over 0.6. D trapping by stronger trapping sites such as vacancies and vacancy clusters showed less dependence on the flux ratio. On the contrary, the D retention increases at each He/D flux ratio in the case of 3 keV He+–1 keV D2 +compared to only D2 + implantation even the He/D flux ratio reaches a value of 1.0. TEM observations confirmed that dense dislocation loops are formed rather than He bubbles, which is responsible for the enhanced D retention in W.

AB - Poly-crystalline tungsten (W) samples were simultaneously irradiated with Helium (He) and Deuterium (D) ions using the triple-ion implantation device. He effect on D retention and transportation was studied using different combination of ion energies and He/D flux ratios in the simultaneous implantation. The experimental results show that D trapping at dislocation loops is significantly reduced in the case of 3 keV He+–3 keV D2 +at He/D flux ratios over 0.6. D trapping by stronger trapping sites such as vacancies and vacancy clusters showed less dependence on the flux ratio. On the contrary, the D retention increases at each He/D flux ratio in the case of 3 keV He+–1 keV D2 +compared to only D2 + implantation even the He/D flux ratio reaches a value of 1.0. TEM observations confirmed that dense dislocation loops are formed rather than He bubbles, which is responsible for the enhanced D retention in W.

KW - D retention

KW - Flux ratio

KW - Helium

KW - Simultaneous implantation

KW - Thermal desorption spectroscopy

KW - Transportation

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DO - 10.1016/j.nme.2018.06.012

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SN - 2352-1791

VL - 16

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EP - 81

JO - Nuclear Materials and Energy

JF - Nuclear Materials and Energy

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