Transient heating effects on tungsten: Ablation of Be layers and enhanced fuzz growth

J.H Yu,M.J Baldwin,R.P Doerner,T Dittmar,A Hakola,T Höschen,J Likonen,D Nishijima,H.H Toudeshki

doi:10.1016/j.jnucmat.2014.10.035

J.H Yu, M.J Baldwin + Show 7 more

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https://doi.org/10.1016/j.jnucmat.2014.10.035

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A pulsed laser in the PISCES-B facility is used to simulate transient heating events such as ELMs and disruptions on W. The first study of enhanced nano-scale W tendril growth (“fuzz”) due to cyclic fast transient heating of W exposed to low energy (EHe+∼30eV) He+ ions is presented. Fuzz due to transient heating is up to ∼10× thicker than the steady state fuzz thickness with no laser heating. A general thermal activation model yields higher values for the activation energy and pre-exponential factor than previously reported in steady state experiments with EHe+∼60eV. Transient heating of W exposed to D plasma with Be seeding shows that the removal threshold of Be follows simple energy considerations based on the heat of formation of Be.

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