CGYRO simulations find alpha particles suppress core turbulence in ARC tokamak via multiscale effects and raise the ITG critical gradient nonlinearly.
A theory-based transport model with com- prehensive physics
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MAESTRO couples surrogate optimization transport modeling with external solvers to enable efficient full-physics steady-state plasma predictions in fusion devices.
TRANSP now includes a new implicit solver PT_SOLVER and T3D/GX integration that provides robust numerical handling for predictive transport modeling in tokamaks.
citing papers explorer
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Impact of energetic alpha particles on core turbulence in an ARC-class fusion power plant
CGYRO simulations find alpha particles suppress core turbulence in ARC tokamak via multiscale effects and raise the ITG critical gradient nonlinearly.
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Accelerating integrated modeling with surrogate-based optimization: the MAESTRO workflow
MAESTRO couples surrogate optimization transport modeling with external solvers to enable efficient full-physics steady-state plasma predictions in fusion devices.
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Predictive capabilities of the integrated modeling TRANSP code for tokamak plasmas
TRANSP now includes a new implicit solver PT_SOLVER and T3D/GX integration that provides robust numerical handling for predictive transport modeling in tokamaks.