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The use of near-axis magnetic fields for stellarator turbulence simulations

R Jorge, M Landreman

2020Plasma Physics and Controlled Fusion20 citationsDOIOpen Access PDF

Abstract

Abstract The design of turbulence optimized stellarators has so far relied on three-dimensional equilibrium codes such as VMEC in order to find the minimum of a given objective function. In this work, we propose a complimentary approach based on the near-axis expansion to compute the geometry parameters of neoclassicaly optimized stellarators used in turbulence studies. As shown here, the near-axis expansion can be a reasonable approximation of the geometric parameters relevant for turbulence and stability simulations of the core of existing optimized stellarator designs. In particular, we examine the geometry coefficients that appear in the gyrokinetic equation, the drift-reduced fluid equations and the ideal ballooning equation. This approach may allow for the development of new stellarator optimization techniques significantly faster than conventional methods.

Topics & Concepts

StellaratorTurbulenceBallooningPhysicsGyrokineticsIdeal (ethics)Stability (learning theory)MechanicsCore (optical fiber)PlasmaMagnetic fieldComputational physicsStatistical physicsClassical mechanicsK-epsilon turbulence modelCurrent (fluid)Magnetic confinement fusionMagnetohydrodynamicsTurbulence modelingDevelopment (topology)K-omega turbulence modelMagnetic confinement fusion researchSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamics
The use of near-axis magnetic fields for stellarator turbulence simulations | Litcius