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Evidence for high-velocity solid dust generation induced by runaway electron impact in FTU

M. De Angeli, P. Tolias, S. Ratynskaia, D. Ripamonti, L. Vignitchouk, F. Causa, G. Daminelli, B. Esposito, E. Fortuna-Zaleśna, F. Ghezzi, L. Laguardia, G. Maddaluno, G. Riva, W. Zielinski

2022Nuclear Fusion25 citationsDOIOpen Access PDF

Abstract

Abstract Post-mortem and in situ evidence is presented in favor of the generation of high-velocity solid dust during the explosion-like interaction of runaway electrons with metallic plasma-facing components in FTU. The freshly-produced solid dust is the source of secondary de-localized wall damage through high-velocity impacts that lead to the formation of craters, which have been reproduced in dedicated light gas gun impact tests. This novel mechanism, of potential importance for ITER and DEMO, is further supported by surface analysis, multiple theoretical arguments and dust dynamics modeling.

Topics & Concepts

Impact craterPlasmaMaterials scienceSolid surfaceElectronMechanicsPhysicsAtomic physicsNuclear physicsChemical physicsAstrobiologyFusion materials and technologiesMagnetic confinement fusion researchLaser-Plasma Interactions and Diagnostics
Evidence for high-velocity solid dust generation induced by runaway electron impact in FTU | Litcius