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In-situ observation of sputtered particles for carbon implanted tungsten during energetic isotope ion implantation

Journal Article · · Fusion Science and Technology
DOI:https://doi.org/10.13182/FST14-T68· OSTI ID:22429755
; ; ;  [1]; ;  [2];  [3];  [4]
  1. Graduate School of Science, Shizuoka University, Shizuoka (Japan)
  2. National Institute for Fusion Science, Gifu (Japan)
  3. Institute for Applied Mechanics, Kyushu University, Kasuga (Japan)
  4. Hydrogen Isotope Research Center, University of Toyama, Toyama (Japan)
+ Show Author Affiliations

Tungsten is a candidate for plasma facing materials in future fusion reactors. During DT plasma operations, carbon as an impurity will bombard tungsten, leading to the formation of tungsten-carbon (WC) layer and affecting tritium recycling behavior. The effect of carbon implantation for the dynamic recycling of deuterium, which demonstrates tritium recycling, including retention and sputtering, has been investigated using in-situ sputtered particle measurements. The C{sup +} implanted W, WC and HOPG were prepared and dynamic sputtered particles were measured during H{sub 2}{sup +} irradiation. It has been found that the major hydrocarbon species for C{sup +} implanted tungsten is CH{sub 3}, while for WC and HOPG (Highly Oriented Pyrolytic Graphite) it is CH{sub 4}. The chemical state of hydrocarbon is controlled by the H concentration in a W-C mixed layer. The amount of C-H bond and the retention of H trapped by carbon atom should control the chemical form of hydrocarbon sputtered by H{sub 2}{sup +} irradiation and the desorption of CH{sub 3} and CH{sub 2} are due to chemical sputtering, although that for CH is physical sputtering. The activation energy for CH{sub 3} desorption has been estimated to be 0.4 eV, corresponding to the trapping process of hydrogen by carbon through the diffusion in W. It is concluded that the chemical states of hydrocarbon sputtered by H{sub 2}{sup +} irradiation for W is determined by the amount of C-H bond on the W surface. (authors)

OSTI ID:
22429755
Journal Information:
Fusion Science and Technology, Journal Name: Fusion Science and Technology Journal Issue: 3 Vol. 67; ISSN 1536-1055
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
CARBON IONS
D-T OPERATION
DESORPTION
DEUTERIUM
FIRST WALL
GRAPHITE
HYDROGEN
HYDROGEN IONS 2 PLUS
ION IMPLANTATION
IRRADIATION
METHANE
RECYCLING
SPUTTERING
THERMONUCLEAR FUELS
THERMONUCLEAR REACTORS
TRITIUM
TUNGSTEN
TUNGSTEN CARBIDES