Effect of externally imposed and self-generated flows on turbulence and magnetohydrodynamic activity in tokamak plasmas

Leboeuf JN.; Decyk VK.; Kissick MW.; Rhodes TL.; Sydora RD.; Dawson JM.

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Effect of externally imposed and self-generated flows on turbulence and magnetohydrodynamic activity in tokamak plasmas

机译：外加和自生流对托卡马克等离子体湍流和磁流体动力学活性的影响

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The effects of externally imposed and self-generated poloidal flows on turbulence and magnetohydrodynamic (MHD) activity are examined in the context of the possible Electric Tokamak (ET) [Phys. Plasmas 6, 4722 (1999)] plasmas and (circularized) DIII-D-like [Fusion Technol. 8, 441 (1985)] discharges. Global gyrokinetic particle simulations and reduced MHD calculations respectively show that ion temperature gradient driven turbulence (ITGDT) and resistive internal kink MHD activity can be reduced and/or suppressed with experimentally achievable externally imposed flows for possible ET start-up plasmas. Global gyrokinetic particle simulations of ITGDT also serve to demonstrate that self-generated flows are necessary to yield experimentally relevant radial correlation lengths in the case of DIII-D-like discharges. (C) 2000 American Institute of Physics. [S1070-664X(00)90305-7]. [References: 26]

机译：在可能的电动托卡马克（ET）的背景下，研究了外部施加的和自生的胶体流动对湍流和磁流体动力学（MHD）活动的影响。 Plasmas 6，4722（1999）]等离子和（圆形）DIII-D-like [Fusion Technol。 8，441（1985）]放电。整体的动力学粒子模拟和减少的MHD计算分别表明，通过可能的ET启动等离子体通过实验可实现的外部施加流，可以降低和/或抑制离子温度梯度驱动的湍流（ITGDT）和内阻扭结MHD活性。对ITGDT进行的全局陀螺动力学模拟还证明，在类DIII-D放电的情况下，自生流对于产生与实验相关的径向相关长度是必要的。（C）2000美国物理研究所。 [S1070-664X（00）90305-7]。 [参考：26]

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《Physics of plasmas》 |2000年第2期|共7页
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Leboeuf JN.; Decyk VK.; Kissick MW.; Rhodes TL.; Sydora RD.; Dawson JM.;
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正文语种 eng
中图分类等离子体物理学;
关键词
Exb velocity-shear; Toroidal geometry; Gyrokinetic simulation; Transport; Modes;

机译：Exb速度剪切;环形几何;动力学模拟;运输;模式;

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1. Effect of externally imposed and self-generated flows on turbulence and magnetohydrodynamic activity in tokamak plasmas [J] . Leboeuf JN., Decyk VK., Kissick MW., Physics of plasmas . 2000,第5aPta2期

机译：外加和自生流对托卡马克等离子体湍流和磁流体动力学活性的影响
2. Plasma-turbulence suppression and transport-barrier formation by externally drien radiofrequency waves in spherical tokamaks [J] . K. Komoshvili, S. Cuperman, C. Bruma Journal of Plasma Physics . 2001,第3期

机译：球形托卡马克中外部dien射频波对等离子体湍流的抑制和输运势垒的形成
3. Observation Of Self-generated Flows In Tokamak Plasmas With Lower-hybrid-driven Current [J] . A. Ince-Cushman, J. E. Rice, M. Reinke, Physical review letters . 2009,第3期

机译：下混合驱动电流在托卡马克血浆中自生流的观察
4. An Electron Plasma Experiment to Study Vortex Dynamics Subject to Externally Imposed Flows [C] . N. C. Hurst, J. R. Danielson, C. M. Surko International Workshop on Non-Neutral Plasmas . 2018

机译：用于研究涡旋动力学的电子等离子体实验，对外施加的流动
5. Measurement of velocity turbulence and application to zonal flow detection in tokamak plasmas. [D] . Jakubowski, Marcin. 2003

机译：速度湍流的测量及其在托卡马克等离子体中的纬向流检测中的应用。
6. Magnetohydrodynamic viscous fluid flow and heat transfer in a circular pipe under an externally applied constant suction [O] . G. Nagaraju, Mahesh Garvandha 2019

机译：磁流体动力学粘性流体在圆形管道中在外部施加恒定吸力下的流动和传热
7. Observation of Self-Generated Flows in Tokamak Plasmas with Lower-Hybrid-Driven Current [O] . Rice, John E., Ince-Cushman, Alexander, Reinke, Matthew Logan, 2008

机译：低杂化驱动电流托卡马克等离子体中自生流动的观察

Effect of externally imposed and self-generated flows on turbulence and magnetohydrodynamic activity in tokamak plasmas

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