Scaling of the critical plasma rotation for stabilization of the n = 1 resistive wall mode (ideal kink) in the DIII-D tokamak

R. J. La Haye; A. Bondeson; M. S. Chu; A. M. Garofalo; Y. Q. Liu; G. A. Navratil; M. Okabayashi; H. Reimerdes; E. J. Strait

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Scaling of the critical plasma rotation for stabilization of the n = 1 resistive wall mode (ideal kink) in the DIII-D tokamak

机译：为稳定DIII-D托卡马克中n = 1的电阻壁模式（理想扭结）而稳定的临界等离子体旋转的比例

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Experiments in the DIII-D tokamak show that the n = 1 ideal kink can be stabilized by a resistive wall if the plasma is rotating fast enough. A database of the onset of the n = 1 resistive wall mode as a function of the equilibrium toroidal magnetic field, the plasma density and the toroidal rotation has been assembled for plasmas with beta between the theoretically predicted no wall and ideal wall stability limits. The critical rotation frequency is found to scale as the inverse of the Alfven time with ω{sub}φτ{sub}A ≈ 0.02 (evaluated at the q = 2 surface at p ≈ 0.6) or ω{sub}φτ{sub}S ≈0.7, where τ{sub}S is the sound time. The dependence of ω{sub}φτ{sub}A or ω{sub}φτ{sub}S on β{sub}N/β{sub}N, no wall frm 1-2 is weak and suggests the plasmas are in the 'intermediate dissipation' regime.

机译：在DIII-D托卡马克中进行的实验表明，如果等离子体旋转得足够快，则n = 1的理想扭结可以通过电阻壁来稳定。已为n = 1的电阻壁模式的发作与平衡环形磁场，等离子密度和环形旋转的函数建立了一个数据库，其中β介于理论上预测的无壁和理想壁稳定性极限之间。发现临界旋转频率与Alfven时间的倒数成比例，其中ω{sub}φτ{sub} A≈0.02（在p = 0.6处的q = 2曲面处评估）或ω{sub}φτ{sub} S ≈0.7，其中τ{sub} S是声音时间。 ω{sub}φτ{sub} A或ω{sub}φτ{sub} S对β{sub} N /β{sub} N的依赖性，没有壁frm 1-2弱，表明等离子体在“中间耗散”制度。

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《Nuclear fusion》 |2004年第11期|p.1197-1203|共7页
作者
R. J. La Haye; A. Bondeson; M. S. Chu; A. M. Garofalo; Y. Q. Liu; G. A. Navratil; M. Okabayashi; H. Reimerdes; E. J. Strait;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类原子核物理学、高能物理学;
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入库时间 2022-08-18 00:49:53

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1. Feedback stabilization of ideal kink and resistive wall modes in tokamak plasmas with negative triangularity [J] . Ren Jing, Liu Yueqiang, Liu Yue, Nuclear fusion . 2018,第12期

机译：具有负三角形的托卡马克等离子体中理想扭结和电阻壁模式的反馈稳定
2. Resistive wall mode stabilization by slow plasma rotation in DIII-D tokamak discharges with balanced neutral beam injection [J] . Strait EJ, Garofalo AM, Jackson GL, Physics of plasmas . 2007,第5aPta2期

机译：在DIII-D托卡马克放电中通过缓慢的等离子体旋转以及平衡的中性束注入实现电阻壁模式稳定
3. Analytical modelling of resistive wall mode stabilization by rotation in toroidal tokamak plasmas [J] . Ham C.J., Gimblett C.G., Hastie R.J. Plasma physics and controlled fusion . 2011,第2期

机译：环形托卡马克等离子体中通过旋转稳定电阻壁模式的解析模型
4. Poloidal and toroidal plasma rotation and resistive wall modes in tokamaks [C] . J. P. (Hans) Goedbloed, Jeffrey Freidberg Conference on Plasma Physics . 2011

机译：Tokamaks中的面色和环形等离子体旋转和电阻壁模式
5. Tokamak resistive wall model validation and robust stabilization strategies [D] . Yang, Shuowei 2009

机译：托卡马克电阻墙模型验证和鲁棒稳定策略
6. 3D passive stabilization of n = 0 MHD modes in EAST tokamak [O] . S. L. Chen, F. Villone, B. J. Xiao, -1

机译：EAST Tokamak中n = 0 MHD模式的3D被动稳定
7. Sustained Stabilization of the Resistive-Wall Mode by Plasma Rotation in the DIII-D Tokamak [O] . A. M. Garofalo, E. J. Strait, L. C. Johnson, 2002

机译：通过DIII-D Tokamak等离子体旋转持续稳定电阻壁模式
8. Stabilization of ideal modes by resistive walls in tokamaks with plasma rotation and its effect on the beta limit [R] . Ward, D. J. , Bondeson, A. 1994

机译：通过等离子体旋转的托卡马克中的电阻壁稳定理想模式及其对β极限的影响

Scaling of the critical plasma rotation for stabilization of the n = 1 resistive wall mode (ideal kink) in the DIII-D tokamak

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