Impact of negative triangularity plasma shaping on the n = 0 resistive wall mode in a tokamak
Author:
Funder
National Research Foundation of Korea
Publisher
IOP Publishing
Subject
Condensed Matter Physics,Nuclear and High Energy Physics
Link
https://iopscience.iop.org/article/10.1088/1741-4326/ac189a/pdf
Reference38 articles.
1. Impact of plasma triangularity and collisionality on electron heat transport in TCV L-mode plasmas;Camenen;Nucl. Fusion,2007
2. The effect of triangularity on fluctuations in a tokamak plasma;Fontana;Nucl. Fusion,2018
3. Achievement of reactor-relevant performance in negative triangularity shape in the DIII-D tokamak;Austin;Phys. Rev. Lett.,2019
4. Reactor-friendly core and boundary of DIII-D diverted negative triangularity plasmas with persistent L-mode edge;Austin,2020
5. H-mode grade confinement in L-mode edge plasmas at negative triangularity on DIII-D;Marinoni;Phys. Plasmas,2019
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1. Overview of results from the 2023 DIII-D negative triangularity campaign;Plasma Physics and Controlled Fusion;2024-09-10
2. MANTA: a negative-triangularity NASEM-compliant fusion pilot plant;Plasma Physics and Controlled Fusion;2024-08-22
3. Simultaneous access to high normalized density, current, pressure, and confinement in strongly-shaped diverted negative triangularity plasmas;Nuclear Fusion;2024-08-12
4. Assessment of vertical stability for negative triangularity pilot plants;Plasma Physics and Controlled Fusion;2024-05-07
5. Geometric dependencies of the mean E × B shearing rate in negative triangularity tokamaks;Nuclear Fusion;2023-11-03
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