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Direct preemptive stabilization of m,n=2,1 neoclassical tearing modes by electron cyclotron current drive in the DIII-D low-torque ITER baseline scenario

We report the first preemptive direct stabilization of m , n = 2 , 1 neoclassical tearing modes (NTMs) in DIII-D low-torque ITER baseline scenario plasmas by electron cyclotron waves. These experiments strongly support that the observed stabilization is achieved by replacing the missing bootstrap cu...

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Bibliographic Details
Published in:Nuclear fusion 2023-09, Vol.63 (9), p.96021
Main Authors: Bardóczi, L., La Haye, R.J., Strait, E.J., Logan, N.C., Smith, S.P., Richner, N.J., Callen, J.D.
Format: Article
Language:English
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Summary:We report the first preemptive direct stabilization of m , n = 2 , 1 neoclassical tearing modes (NTMs) in DIII-D low-torque ITER baseline scenario plasmas by electron cyclotron waves. These experiments strongly support that the observed stabilization is achieved by replacing the missing bootstrap current in the island by electron cyclotron current drive (ECCD). These plasmas (with and without ECCD) are stable to 2,1 NTMs when the differential rotation between the q = 1 and q = 2 surfaces ( Δ f 1 , 2 ) is sustained above a critical value ( Δ f CRIT ≈ 1 kHz), but those evolving to low differential rotation ( Δ f 1 , 2 < Δ f CRIT ) routinely develop a disruptive 2,1 island at the time and frequency of a sawtooth precursor. Preemptive, local and direct stabilization by ECCD is tested by scanning the current drive amplitude and location inside and outside of the q = 2 rational surface shot by shot. Analysis of only low differential rotation time windows, i.e. when stabilization from Δ f 1 , 2 is absent, shows focused ECCD at q = 2 prevents the onset of 2,1 NTMs. These results are important, as they give the first demonstration of disruptive NTM control by ECCD in the plasma scenario planned for ITER.
ISSN:0029-5515
1741-4326
DOI:10.1088/1741-4326/acec5c