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P: Fachverband Plasmaphysik
P 3: Magnetic Confinement II
P 3.4: Vortrag
Montag, 16. März 2026, 17:40–18:05, KH 02.016
Resilience of stellarator plasmas against thermal quenches induced by tungsten TESPEL injection — •Hjördis Bouvain1, Andreas Dinklage1, Naoki Tamura1, Isabel Garcia-Cortes2, Tomas Gonda3, Katsumi Ida4, Hiroe Igami4, Andreas Langenberg1, Hiroshi Kasahara4, Kieran McCarthy3, Daniel Medina-Roque3, Keisuke Mukai4, Yoshiro Narushima4, Kian Rahbarnia1, Chihiro Suzuki4, Yuki Takemura4, Tokihiko Tokuzawa4, Thomas Wegner1, Mikiro Yoshinuma4, The W7-X Team1, and The LHD Experiment Team4 — 1Max-Planck-Institute for Plasma Physics, Greifswald, Germany — 2Laboratorio Nacional de Fusión, CIEMAT, Madrid, Spain — 3Auburn University, Auburn, USA — 4National Institute for Fusion Science, Toki, Japan
Plasma-terminating events, e.g. induced by the sudden influx of high-Z impurities due to mechanical failures, threaten the safe operation of large-scale fusion devices. Unlike tokamaks, in stellarators such an event cannot lead to a current disruption, but thermal quenches can still occur. To quantify the potential damage to plasma-facing components caused by the sudden energy loss, large amounts of tungsten were injected via TESPEL in W7-X and LHD plasmas. It was found that beyond a threshold of tungsten atoms and plasma parameters, impurity induced radiative losses along propagating cold fronts may induce termination. Close to this threshold, an intrinsic resilience to the perturbations was observed: despite energy losses up to ~90%, the plasmas recovered without external intervention. This underscores the improved robustness of stellarator plasmas to strong perturbations.
Keywords: tungsten; W7-X; LHD; TESPEL