The effect of 2/1 pre-existing magnetic islands width on the suppression of runaway electrons in disruption simulations of J-TEXT

Li C. H.; Jiang Z. H.; Lin Z. F.; Ye X.; Huang J.; Tong R. H.; Zhu L. Z.; Chen Z. Y.; Liang Y.; Zhu P.; Chen Z. P.; Ding Y. H.

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The effect of 2/1 pre-existing magnetic islands width on the suppression of runaway electrons in disruption simulations of J-TEXT

机译：2/1预先存在的磁岛宽度对j文本中断模拟中的失控电子抑制的影响

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The suppression of runaway electrons (REs) is influenced by the size of pre-existing 2/1 magnetic islands. Simulations of argon (Ar) massive gas injection into J-TEXT plasmas with pre-existing 2/1 magnetic islands of different width are performed with the 3D magnetohydrodynamic code called NIMROD (Sovinecet al2004J. Comput. Phys.195355). Results show that the ratio of remaining REs is not monotonically dependent on the width of pre-existing 2/1 magnetic islands. Large enough pre-existing 2/1 magnetic islands can lead to strong magnetic perturbation and strong magnetic surface stochasticity to expel the REs. The critical width for the suppression of REs is to be 0.31 as the minor radius. Under the condition of suitable small pre-existing 2/1 magnetic islands width, with island width ranging from 0.07 to 0.11 times the minor radius, the mitigation of REs is achieved. The duration of magnetic perturbations delta B/B(n= 1) (exceeding (4 to 6) x 10(-3)) is a key for RE loss, and high amplitude of highnmodes plays an important role in RE loss.

机译：失控电子（RE）的抑制受到预先存在的2/1磁岛的大小的影响。使用称为Nimrod的3D磁流动正动力学代码进行氩气（AR）氩气（AR）大规模气体注入J-Text等离子体与不同宽度的磁岛（SovInecet Al2004J。计算。Phys.195355）进行。结果表明，剩余res的比例没有单调依赖于预先存在的2/1磁岛的宽度。足够大的预先存在的2/1磁岛可导致强磁扰动和强磁表面瞬间驱逐res。抑制RE的临界宽度为0.31，为小半径。在合适的小预先存在的2/1磁岛宽度的条件下，岛宽范围为407至0.11倍的小半径，实现了res的减轻。磁性扰动ΔB/ B（n = 1）的持续时间（超过（4〜6）×10（-3））是重新损失的关键，高幅度的高幅度在重新损失中起重要作用。

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来源
《Plasma physics and controlled fusion》 |2020年第9期|共14页
作者
Li C. H.; Jiang Z. H.; Lin Z. F.; Ye X.; Huang J.; Tong R. H.; Zhu L. Z.; Chen Z. Y.; Liang Y.; Zhu P.; Chen Z. P.; Ding Y. H.;
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作者单位

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

Huazhong Univ Sci &

Technol Sch Elect &

Elect Engn Int Joint Res Lab Magnet Confinement Fus &

Plasma State Key Lab Adv Electromagnet Engn &

Technol Wuhan 430074 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类等离子体物理学;
关键词
disruption; resonant magnetic perturbation; mode penetration; runaway electrons;

机译：破坏;谐振磁性扰动;模式渗透;失控电子;
入库时间 2022-08-20 06:25:54

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1. The effect of 2/1 pre-existing magnetic islands width on the suppression of runaway electrons in disruption simulations of J-TEXT [J] . Li C. H., Jiang Z. H., Lin Z. F., Plasma physics and controlled fusion . 2020,第9期

机译：2/1预先存在的磁岛宽度对j文本中断模拟中的失控电子抑制的影响
2. Full suppression of runaway electron generation by the mode penetration of resonant magnetic perturbations during disruptions on J-TEXT [J] . Lin Z. F., Chen Z. Y., Huang D. W., Plasma physics and controlled fusion . 2019,第2期

机译：通过谐振磁法扰动的模式渗透在J文本中的谐振磁扰动的全面抑制
3. Suppression of runaway electrons by mode locking during disruptions on J-TEXT [J] . Z.Y. Chen, Z.F. Lin, D.W. Huang, Nuclear fusion . 2018,第8期

机译：在J-TEXT破裂期间通过锁模抑制失控电子
4. Generation and suppression of runaway electrons in ASDEX Upgrade disruptions [C] . G. Pautasso, P.J. McCarthy, C. Fuchs, EPS Conference on Plasma Physics . 2016

机译：在Asdex升级中断中的失控电子产生和抑制
5. A simulation approach to modeling contingency strategies for managing electronic part supply chain disruptions. [D] . Allison, Hannah Grace. 2014

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6. Simulation of Nitroxide Electron Paramagnetic Resonance Spectra from Brownian Trajectories and Molecular Dynamics Simulations [O] . Susan C. DeSensi, David P. Rangel, Albert H. Beth, 2008

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7. Suppression of Runaway Electrons by Resonant Magnetic Perturbations in TEXTOR Disruptions [O] . Lehnen, M., Bozhenkov, S., Abdullaev, S., 2008

机译：在TEXTOR中断中通过谐振磁扰动抑制失控电子

The effect of 2/1 pre-existing magnetic islands width on the suppression of runaway electrons in disruption simulations of J-TEXT

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