SPI disruptions in ASDEX Upgrade follow a repeatable chain of phases whose durations and current traces shift continuously from convex to concave as neon assimilation increases, yielding pre-TQ times of 15–0.5 ms and early CQ times of 13.3–8.2 ms.
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JOREK simulations demonstrate that increasing nitrogen seeding moves the X-point radiator upwards in ASDEX Upgrade while decreasing it moves the radiator downwards.
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Evolution of SPI-induced disruptions in ASDEX Upgrade
SPI disruptions in ASDEX Upgrade follow a repeatable chain of phases whose durations and current traces shift continuously from convex to concave as neon assimilation increases, yielding pre-TQ times of 15–0.5 ms and early CQ times of 13.3–8.2 ms.
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JOREK simulations of the X-point radiator formation and its movement in ASDEX Upgrade
JOREK simulations demonstrate that increasing nitrogen seeding moves the X-point radiator upwards in ASDEX Upgrade while decreasing it moves the radiator downwards.