Diverted negative triangularity plasmas on DIII-D: the benefit of high confinement without the liability of an edge pedestal

Diverted discharges at negative triangularity on the DIII-D tokamak sustain normalized confinement and pressure levels typical of standard H-mode scenarios (H98y,2≅1, βN≅3) without developing an edge pressure pedestal, despite the auxiliary power far exceeding the L → H power threshold expected from...

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Bibliographic Details
Published in:Nuclear fusion 2021-09, Vol.61 (11)
Main Authors: Marinoni, Alessandro, Austin, Max E., Hyatt, A. W., Saarelma, Samuli, Scotti, Filippo, Yan, Zheng, Chrystal, Colin, Coda, Stefano, Glass, F., Hanson, Jeremy M., McLean, Adam G., Pace, David C., Paz-Soldan, Carlos, Petty, Craig C., Porkolab, Miklos, Schmitz, Lothar, Sciortino, Francesco, Smith, Sterling P., Thome, Kathreen E., Turco, Francesca
Format: Article
Language:English
Subjects:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
Ballooning
ELM
Negative triangularity
Reactor
TEM
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Summary:Diverted discharges at negative triangularity on the DIII-D tokamak sustain normalized confinement and pressure levels typical of standard H-mode scenarios (H98y,2≅1, βN≅3) without developing an edge pressure pedestal, despite the auxiliary power far exceeding the L → H power threshold expected from conventional scaling laws. The power degradation of confinement is substantially weaker than the ITER-89P scaling, resulting in a confinement factor that improves with increasing auxiliary power. Furthermore, the absence of the edge pedestal is beneficial in several aspects, such as eliminating the need for active mitigation or suppression of edge localized modes, low impurity retention and a reconstructed scrape-off layer heat flux width at the mid-plane that exceeds the ITPA multi-machine scaling law by up to 50%. Together with technological advantages granted by placing the divertor at larger radii, plasmas at Negative Triangularity without an edge pedestal feature both core confinement and power handling characteristics that are potentially suitable for operation in future fusion reactors.
ISSN:0029-5515
1741-4326