Global micro-tearing modes in the wide pedestal of an NSTX plasma

J. Dominski; W. Guttenfelder; D. Hatch; T. Goerler; F. Jenko; S. Munaretto; S. Kaye

doi:10.1063/5.0200894

Global micro-tearing modes in the wide pedestal of an NSTX plasma

J. Dominski, W. Guttenfelder, D. Hatch, T. Goerler, F. Jenko, S. Munaretto, S. Kaye

Research output: Contribution to journal › Article › peer-review

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Abstract

Global linear electromagnetic gyrokinetic simulations of micro-tearing modes (MTMs) growing in the wide pedestal of the ELM-free NSTX discharge #132 588 are reported. Two micro-tearing branches growing near the surfaces of safety factor q = 4 (pedestal top) and q = 5 - 6 (pedestal) are simulated. The frequencies of these MTMs with low toroidal mode number (n ranging from 3 to 6) are in agreement with the ones of quasi-coherent fluctuations present on the magnetic spectrogram. No kinetic ballooning mode (KBM) is observed at experimental values of β; instead, the experimental plasma lies 20% below the critical global KBM threshold. This confirms local simulation results stating that experimental NSTX profiles lie in the KBM stability region. Carbon impurities, which are abundant in this plasma, were found to play a significant role. Neglecting them leads to a ∼ 50 % error in the growth rates.

Original language	English (US)
Article number	044501
Journal	Physics of Plasmas
Volume	31
Issue number	4
DOIs	https://doi.org/10.1063/5.0200894
State	Published - Apr 1 2024

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

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10.1063/5.0200894

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@article{02928d3676e44e0286e765608e9d37ce,

title = "Global micro-tearing modes in the wide pedestal of an NSTX plasma",

abstract = "Global linear electromagnetic gyrokinetic simulations of micro-tearing modes (MTMs) growing in the wide pedestal of the ELM-free NSTX discharge \#132 588 are reported. Two micro-tearing branches growing near the surfaces of safety factor q = 4 (pedestal top) and q = 5 - 6 (pedestal) are simulated. The frequencies of these MTMs with low toroidal mode number (n ranging from 3 to 6) are in agreement with the ones of quasi-coherent fluctuations present on the magnetic spectrogram. No kinetic ballooning mode (KBM) is observed at experimental values of β; instead, the experimental plasma lies 20\% below the critical global KBM threshold. This confirms local simulation results stating that experimental NSTX profiles lie in the KBM stability region. Carbon impurities, which are abundant in this plasma, were found to play a significant role. Neglecting them leads to a ∼ 50 \% error in the growth rates.",

author = "J. Dominski and W. Guttenfelder and D. Hatch and T. Goerler and F. Jenko and S. Munaretto and S. Kaye",

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T1 - Global micro-tearing modes in the wide pedestal of an NSTX plasma

AU - Dominski, J.

AU - Guttenfelder, W.

AU - Hatch, D.

AU - Goerler, T.

AU - Jenko, F.

AU - Munaretto, S.

AU - Kaye, S.

PY - 2024/4/1

Y1 - 2024/4/1

N2 - Global linear electromagnetic gyrokinetic simulations of micro-tearing modes (MTMs) growing in the wide pedestal of the ELM-free NSTX discharge #132 588 are reported. Two micro-tearing branches growing near the surfaces of safety factor q = 4 (pedestal top) and q = 5 - 6 (pedestal) are simulated. The frequencies of these MTMs with low toroidal mode number (n ranging from 3 to 6) are in agreement with the ones of quasi-coherent fluctuations present on the magnetic spectrogram. No kinetic ballooning mode (KBM) is observed at experimental values of β; instead, the experimental plasma lies 20% below the critical global KBM threshold. This confirms local simulation results stating that experimental NSTX profiles lie in the KBM stability region. Carbon impurities, which are abundant in this plasma, were found to play a significant role. Neglecting them leads to a ∼ 50 % error in the growth rates.

AB - Global linear electromagnetic gyrokinetic simulations of micro-tearing modes (MTMs) growing in the wide pedestal of the ELM-free NSTX discharge #132 588 are reported. Two micro-tearing branches growing near the surfaces of safety factor q = 4 (pedestal top) and q = 5 - 6 (pedestal) are simulated. The frequencies of these MTMs with low toroidal mode number (n ranging from 3 to 6) are in agreement with the ones of quasi-coherent fluctuations present on the magnetic spectrogram. No kinetic ballooning mode (KBM) is observed at experimental values of β; instead, the experimental plasma lies 20% below the critical global KBM threshold. This confirms local simulation results stating that experimental NSTX profiles lie in the KBM stability region. Carbon impurities, which are abundant in this plasma, were found to play a significant role. Neglecting them leads to a ∼ 50 % error in the growth rates.

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Global micro-tearing modes in the wide pedestal of an NSTX plasma

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