Comparisons of Energetic Particle Confinement in Stellarator Configurations
POSTER
Abstract
Recent progress in stellarator optimization has identified configurations with very good energetic particle confinement. These configurations are typically found by optimizing either quasisymmetry, neoclassical metrics such as εeff and Γc, or both. However comparisons across configurations have typically been difficult to obtain due to differences in device size and field strength. In this poster, we present alpha particle confinement results from 9 stellarator configurations of different types, including quasihelically symmetric, quasiaxisymmetric, quasi-isodynamic, and σ-optimized configurations. Results for calculations with and without collisions are presented. Analysis of the metrics shows that good alpha particle confinement is highly corellated with the Γc metric, while the correlation with quasisymmetry is weaker. When collisions are included, configurations with losses near the trapped boundary perform relatively worse compared to configurations with deeply trapped losses. This suggests possibilities of optimizing for specific classes of collisionless particle losses.
Publication: work has been submitted to Journal of Nuclear Fusion
Presenters
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Aaron C Bader
University of Wisconsin - Madison
Authors
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Aaron C Bader
University of Wisconsin - Madison
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David T Anderson
University of Wisconsin - Madison
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Michael Drevlak
IPP - Greifswald, Germany
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Benjamin Faber
University of Wisconsin - Madison, UW Madison
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Chris C Hegna
University of Wisconsin - Madison
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Sophia A Henneberg
Max Planck Institute for Plasma Physics
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Matt Landreman
University of Maryland, College Park, University of Maryland
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John C Schmitt
Auburn University
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Yasuhiro Suzuki
Natl Inst Fusion Science-Toki
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Andrew S Ware
University of Montana