Enhanced stiffness weakening and confinement improvement by the linear electromagnetic effect in relatively high-q and low magnetic-shear plasmas

Kim J. Y.; Han H. S.

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Enhanced stiffness weakening and confinement improvement by the linear electromagnetic effect in relatively high-q and low magnetic-shear plasmas

机译：在相对较高的q和较低的磁剪切等离子体中，通过线性电磁效应增强了刚度减弱和限制的程度

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The linear electromagnetic stabilizing effect on the toroidal ion temperature gradient (ITG) mode is usually believed to be weak when plasma beta is low. It is shown that this effect can be significant even in such a plasma if the safety-factor (q) profile is in the regime with relatively high q and low magnetic-shear values. Furthermore, this effect is found to induce the profile stiffness weakening by reducing the ITG growth rate slope. These results imply that the linear electromagnetic effect can be an important player for the strong confinement improvement or stiffness weakening observed in negative or optimized shear mode, which typically starts to occur from low beta plasmas.

机译：通常认为，当血浆β低时，对环形离子温度梯度（ITG）模式的线性电磁稳定作用较弱。已表明，即使在这样的等离子体中，如果安全系数（q）曲线处于具有相对较高的q和较低的磁剪切值的状态，这种效果也很明显。此外，发现该效应通过减小ITG生长速率斜率引起轮廓刚度减弱。这些结果表明，线性电磁效应可能是负向或优化剪切模式下观察到的强约束改善或刚度减弱的重要因素，这种情况通常从低β等离子体开始出现。

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来源
《Nuclear fusion》 |2019年第5期|056021.1-056021.6|共6页
作者
Kim J. Y.; Han H. S.;
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作者单位

Natl Fus Res Inst, Daejeon 34133, South Korea;

Natl Fus Res Inst, Daejeon 34133, South Korea;

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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
关键词
profile stiffness weakening; linear electromagnetic effect; ion temperature gradient mode; internal transprot barrier; negative or optimized shear mode;

机译：轮廓刚度弱化;线性电磁效应;离子温度梯度模式;内部输运势垒;负或优化剪切模式;
入库时间 2022-08-18 04:20:08

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1. Enhanced stiffness weakening and confinement improvement by the linear electromagnetic effect in relatively high-q and low magnetic-shear plasmas [J] . Kim J. Y., Han H. S. Nuclear fusion . 2019,第5期

机译：相对高Q和低磁剪切等离子体中的线性电磁效应增强刚度弱化和限制
2. Sheared rotation effects on kinetic stability in enhanced confinement tokamak plasmas, and nonlinear dynamics of fluctuations and flows in axisymmetric plasmas [J] . Rewoldt G., Chance MS., Hahm TS., Physics of plasmas . 1998,第5aPta2Speca期

机译：剪切旋转对增强约束托卡马克等离子体动力学稳定性的影响，以及轴对称等离子体脉动和流动的非线性动力学
3. A Key to Improved Ion Core Confinement in the JET Tokamak: Ion Stiffness Mitigation due to Combined Plasma Rotation and Low Magnetic Shear [J] . P. Mantica, C. Angioni, C. Challis, Physical review letters . 2011,第13期

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机译：抑制边缘局部模式及偏东流动液锂限制器改进等离子体监控性能
5. Controlling light with high-Q silicon photonic crystal nanocavities: Photon confinement, nonlinearity and coherence. [D] . Yang, Xiaodong. 2009

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6. Enhanced Thermoelectric Performance in Cu-Intercalated BiTeI by Compensation Weakening Induced Mobility Improvement [O] . Lihua Wu, Jiong Yang, Miaofang Chi, -1

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7. Sheared Rotation Effects on Kinetic Stability in Enhanced Confinement Tokamak Plasmas, and Nonlinear Dynamics of Fluctuations and Flows in Axisymmetric Plasmas [O] . Beer, M.A., Chance, M.S., Hahm, T.S., 1997

机译：剪切旋转对增强约束托卡马克等离子体中动力学稳定性的影响，以及轴对称等离子体中波动和流动的非线性动力学
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机译：剪切旋转对增强约束托卡马克等离子体动力学稳定性的影响，以及轴对称等离子体中动力学和流动的非线性动力学

Enhanced stiffness weakening and confinement improvement by the linear electromagnetic effect in relatively high-q and low magnetic-shear plasmas

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