Toroidally oriented pump inlets reduce back-flow by up to 20% (deuterium) and 33% (helium) and enhance partial pressures by factors of 1.78 and 2.00 in DSMC simulations of plasma-imprinted neutral winds.
Lipschultz
3 Pith papers cite this work. Polarity classification is still indexing.
citation-role summary
citation-polarity summary
fields
physics.plasm-ph 3years
2026 3verdicts
UNVERDICTED 3roles
background 2polarities
background 2representative citing papers
Fuel puffing exceeds core fuelling by ~10x in detached operation, invalidating core-fuelling-dominant assumptions in TFC models and demanding integrated plasma-TFC reactor design with mitigation options that trade fusion power or core purity.
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.
citing papers explorer
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Harnessing Toroidal Neutral Flows to Enhance Divertor Particle Exhaust
Toroidally oriented pump inlets reduce back-flow by up to 20% (deuterium) and 33% (helium) and enhance partial pressures by factors of 1.78 and 2.00 in DSMC simulations of plasma-imprinted neutral winds.
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On the Relationship Between Plasma and Tritium Fuel Cycle Through Matter Injection and Particle Exhaust
Fuel puffing exceeds core fuelling by ~10x in detached operation, invalidating core-fuelling-dominant assumptions in TFC models and demanding integrated plasma-TFC reactor design with mitigation options that trade fusion power or core purity.
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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.