engleski

Effect of composition and surface characteristics on fuel retention in beryllium- containing co-deposited layers

We have investigated retention of deuterium in beryllium- containing, laboratory-made films whose properties resemble co- deposits observed on JET-ILW or predicted for ITER. The samples were prepared using High Power Impulse Magnetron Sputtering and Thermo-Vacuum Arc Deposition. We have observed that retention depends on the flux of D atoms on the growing film, but even more prominently on its composition, structure, and morphology. Especially, inclusion of carbon by 10-15 at.% in the layers can increase retention by a factor of 2-10. This we attribute to increasing number of defects as well as aromatic and aliphatic C-D bonds in the samples. Other impurities do not significantly alter the D inventory while more D is retained in samples with rough or highly modified surfaces. Our results show that reproducing the reported D concentrations of ~5 at.% in JET-ILW- like deposits requires keeping the sample temperature at 100- 200°C during the production phase and optimizing the uniformity of deposition fluxes. Data from Be-D samples further indicate that fuel retention in more ITER-relevant co-deposits would be around 1-2 at.%.

beryllium ; fuel retention ; co-deposition

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