FIREFLY offers simplified approximations for divertor heat loads and particle exhaust to speed up design evaluation in magnetic confinement fusion.
Scrape-off layer and divertor physics: Chapter 5 of the special issue: on the path to tokamak burning plasma operation
3 Pith papers cite this work. Polarity classification is still indexing.
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Design study proposing a compact negative-triangularity tokamak with REBCO magnets targeting 40 MW fusion power, Q=1.3, and $1.6B cost via integrated plasma, neutronics, and economic modeling.
Review of experimental progress indicating negative triangularity tokamaks achieve ELM-free high confinement with advantages in divertor wetted area, detachment compatibility, and operational robustness compared to positive triangularity H-mode.
citing papers explorer
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FIREFLY: heat load and particle exhaust approximations for rapid evaluation of divertor designs
FIREFLY offers simplified approximations for divertor heat loads and particle exhaust to speed up design evaluation in magnetic confinement fusion.
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Compact Experimental Negative TriAngUlarity Reactor (CENTAUR): A design study for a compact, affordable breakeven tokamak
Design study proposing a compact negative-triangularity tokamak with REBCO magnets targeting 40 MW fusion power, Q=1.3, and $1.6B cost via integrated plasma, neutronics, and economic modeling.
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The Negative Triangularity Tokamak Path for Fusion Pilot Plants: Experimental Progress and Future Prospects
Review of experimental progress indicating negative triangularity tokamaks achieve ELM-free high confinement with advantages in divertor wetted area, detachment compatibility, and operational robustness compared to positive triangularity H-mode.