Article Dans Une Revue Physics of Plasmas Année : 2026

Particle-in-Cell simulations of lithium redeposition in plasma sheaths under oblique magnetic fields

Stéphane Heuraux
Etienne Gravier
Francesco Volpe
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Jérôme Moritz

Résumé

Compact nuclear fusion reactors will require advanced plasma-facing components capable of withstanding the higher heat and neutron fluxes characteristic of these machines. Liquid metal walls, based for instance on lithium, have emerged as a promising alternative to solid walls. This study investigates lithium redeposition on plasma-facing walls in a deuterium plasma environment using a self-consistent 1D3V Particle-in-Cell code. The model accounts for the interplay between lithium evaporation and the electric potential with a simplified but relevant physics. Four key parameters were analyzed for their impact on lithium redeposition: the ratio γs of the Li+ outflux over the D+ influx, the magnetic field inclination θ, the ionization mean free path Λiz , and the magnetic field intensity B. Results indicate that γs and θ significantly influence redeposition, leading to redeposition rates higher than 95%, while variations in Λiz and B had secondary effects. In general, an increase of one of these parameters drives to a lower redeposition, except for θ, where potential ”bumps” formed under specific conditions, alter ion trajectories and result into a non-monotonic redeposition dependency. The role of lithium in flattening the potential profile and its evaporation rate highlight the need to take Li impurity into account in the calculation of the potential profile

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Dates et versions

hal-04834767 , version 1 (12-12-2024)
hal-04834767 , version 2 (03-02-2025)
hal-04834767 , version 3 (11-12-2025)

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Romain Avril, Stéphane Heuraux, Etienne Gravier, Francesco Volpe, Jérôme Moritz. Particle-in-Cell simulations of lithium redeposition in plasma sheaths under oblique magnetic fields. Physics of Plasmas, 2026, 33 (2), ⟨10.1063/5.0307230⟩. ⟨hal-04834767v3⟩
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