Abstract
Polycrystalline tungsten samples were irradiated with 30keV helium ions in the Materials Irradiation Experiment (MITE-E). Samples were held at temperatures of 500–900°C while irradiated to fluences of ∼6×1016 to ∼4×1019He/cm2. Drastic changes to the surface morphology were observed at implant doses exceeding ∼1×1018He/cm2 and classified as blisters, pitting, or a highly directional surface structure dubbed “grass.” Morphological details of the grass structure depended on the crystal orientation of the grains at the sample surface. A sub-surface semi-porous layer was formed during irradiation. Post-implantation analysis revealed that this layer extended up to ∼1000nm below the surface in the highest fluence cases. Specimens irradiated to fluences in excess of ∼1×1018He/cm2 experienced statistically significant mass loss which increased with higher implant dose. Implications of this mass loss are discussed for the plasma facing components of both magnetic and inertial fusion reactors.
Published Version
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