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Modeling of energetic particle transport in optimized stellarators

A. Bader, D. T. Anderson, M. Drevlak, B. J. Faber, C. C. Hegna, S. Henneberg, Matt Landreman, J.C. Schmitt, Y. Suzuki, A. S. Ware

2021Nuclear Fusion30 citationsDOI

Abstract

Nine stellarator configurations, three quasiaxisymmetric, three quasihelically symmetric and three non-quasisymmetric are scaled to ARIES-CS size and analyzed for energetic particle content. The best performing configurations with regard to energetic particle confinement also perform the best on the neoclassical {\Gamma}c metric, which attempts to align contours of the second adiabatic invariant with flux surfaces. Quasisymmetric configurations that simultaneously perform well on {\Gamma}c and quasisymmetry have the best overall confinement, with collisional losses under 3%, approaching the performance of ITER with ferritic inserts.

Topics & Concepts

StellaratorAdiabatic processAdiabatic invariantParticle (ecology)PhysicsComputational physicsInvariant (physics)Metric (unit)Statistical physicsPlasmaNuclear physicsThermodynamicsQuantum mechanicsOceanographyOperations managementGeologyEconomicsMagnetic confinement fusion researchFusion materials and technologiesNuclear reactor physics and engineering