Simulation study on the frequency modulation of sawtooth oscillation by plasma shape in tokamak

This study numerically investigates the impact of the tokamak plasma shape (elongation, triangularity, and aspect ratio) on the amplitude and period of sawtooth oscillations using the three-dimensional toroidal nonlinear magnetic fluid code CLT and the simulation results are qualitatively compared w...

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Published inNuclear fusion Vol. 65; no. 1; pp. 16046 - 16060
Main Authors Zhang, Peijie, Yang, Jinhong, Ren, Zhenzhen, Xiao, Zheng, Chu, Jiaxuan, Kuang, Jun, Wang, Weihua
Format Journal Article
LanguageEnglish
Published IOP Publishing 01.01.2025
Subjects
frequency modulation
plasma shape
sawtooth oscillation
tokamak
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ISSN0029-5515
1741-4326
DOI10.1088/1741-4326/ad9506

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Abstract This study numerically investigates the impact of the tokamak plasma shape (elongation, triangularity, and aspect ratio) on the amplitude and period of sawtooth oscillations using the three-dimensional toroidal nonlinear magnetic fluid code CLT and the simulation results are qualitatively compared with the experimental observation in Tokamak Configuration Variable. The study reveals a frequency modulation phenomenon for the sawtooth period with respect to the elongation and aspect ratio. (1) The simulation results of the sawtooth linear phase show that a large elongation and a positive triangularity are beneficial for the stability of the internal kink mode, while a negative triangularity has limited effect on the stability of the internal kink mode. (2) The simulation results of the sawtooth oscillation phase show that the sawtooth period generally increases with the increase of elongation. However, when the elongation is relatively small, there is a significant peak in the sawtooth period, and this peak position is modulated by elongation and aspect ratio. Analysis suggests that the peak of the sawtooth period is caused by the occurrence of m / n = 3/2 mode during the sawtooth crashes. (3) The sawtooth period exhibits a monotonic increasing relation with the triangularity, while the sawtooth amplitude increases with both the elongation and triangularity.
AbstractList This study numerically investigates the impact of the tokamak plasma shape (elongation, triangularity, and aspect ratio) on the amplitude and period of sawtooth oscillations using the three-dimensional toroidal nonlinear magnetic fluid code CLT and the simulation results are qualitatively compared with the experimental observation in Tokamak Configuration Variable. The study reveals a frequency modulation phenomenon for the sawtooth period with respect to the elongation and aspect ratio. (1) The simulation results of the sawtooth linear phase show that a large elongation and a positive triangularity are beneficial for the stability of the internal kink mode, while a negative triangularity has limited effect on the stability of the internal kink mode. (2) The simulation results of the sawtooth oscillation phase show that the sawtooth period generally increases with the increase of elongation. However, when the elongation is relatively small, there is a significant peak in the sawtooth period, and this peak position is modulated by elongation and aspect ratio. Analysis suggests that the peak of the sawtooth period is caused by the occurrence of m / n = 3/2 mode during the sawtooth crashes. (3) The sawtooth period exhibits a monotonic increasing relation with the triangularity, while the sawtooth amplitude increases with both the elongation and triangularity.
This study numerically investigates the impact of the tokamak plasma shape (elongation, triangularity, and aspect ratio) on the amplitude and period of sawtooth oscillations using the three-dimensional toroidal nonlinear magnetic fluid code CLT and the simulation results are qualitatively compared with the experimental observation in Tokamak Configuration Variable. The study reveals a frequency modulation phenomenon for the sawtooth period with respect to the elongation and aspect ratio. (1) The simulation results of the sawtooth linear phase show that a large elongation and a positive triangularity are beneficial for the stability of the internal kink mode, while a negative triangularity has limited effect on the stability of the internal kink mode. (2) The simulation results of the sawtooth oscillation phase show that the sawtooth period generally increases with the increase of elongation. However, when the elongation is relatively small, there is a significant peak in the sawtooth period, and this peak position is modulated by elongation and aspect ratio. Analysis suggests that the peak of the sawtooth period is caused by the occurrence of m / n = 3/2 mode during the sawtooth crashes. (3) The sawtooth period exhibits a monotonic increasing relation with the triangularity, while the sawtooth amplitude increases with both the elongation and triangularity.
Author Chu, Jiaxuan
Xiao, Zheng
Yang, Jinhong
Kuang, Jun
Zhang, Peijie
Ren, Zhenzhen
Wang, Weihua
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Snippet This study numerically investigates the impact of the tokamak plasma shape (elongation, triangularity, and aspect ratio) on the amplitude and period of...
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SubjectTerms frequency modulation
plasma shape
sawtooth oscillation
tokamak
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Title Simulation study on the frequency modulation of sawtooth oscillation by plasma shape in tokamak
URI https://iopscience.iop.org/article/10.1088/1741-4326/ad9506
https://doaj.org/article/44b3a8e9cf9844e6b50a9ac9377a317f
Volume 65
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