Effect of rotation on negative triangularity plasmas in DIII-D

Author:

Chrystal CORCID,Austin M EORCID,Odstrcil TORCID,Paz-Soldan CORCID,Thome K EORCID,Marinoni AORCID,Boyes WORCID,Osborne T HORCID,Logan N CORCID,Hyatt A W,Nelson A OORCID

Abstract

Abstract At the DIII-D tokamak, plasmas with negative triangularity (NT) have been found to have similar energy confinement times as H-mode plasmas with positive triangularity. These NT plasmas also have a stable edge that inhibits H-mode, lacks dangerous edge transients, and has naturally low impurity confinement. For these reasons, NT plasmas have the potential to be a transformative reactor scenario. To determine the importance of strong co-current neutral beam torque for NT performance at DIII-D, scans of neutral beam torque at constant neutral beam power have been performed. These scans have shown that the energy confinement time for a basic, inductive NT scenario ( q 95 2.8 ) decreases by 16% when torque is reduced to reactor levels. This reduction in confinement can be replicated with gyrofluid modeling that isolates the role of E × B shear in the change in transport. In a separate set of discharges with lower plasma current ( q 95 4.2 ), no significant correlation between confinement time and rotation was found. Throughout this investigation, excellent MHD stability was observed, even with very low toroidal rotation. Further, low impurity confinement was found at multiple rotation levels. Throughout the campaign, rotation near the edge was counter-current, consistent with the measurement of counter-current intrinsic edge rotation, and these observations agree with NT results from the TCV tokamak.

Funder

U.S. Department of Energy

Publisher

IOP Publishing

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1. Overview of results from the 2023 DIII-D negative triangularity campaign;Plasma Physics and Controlled Fusion;2024-09-10

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