Gyrokinetic Studies On Turbulence-driven And Neoclassical Nondiffusive Toroidal-momentum Transport And The Effect Of Residual Fluctuations In Strong E × B Shear

W. X. Wang; T. S. Hahm; S. Ethier; G. Rewoldt; W. W. Lee; W. M. Tang; S. M. Kaye; P. H. Diamond

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Gyrokinetic Studies On Turbulence-driven And Neoclassical Nondiffusive Toroidal-momentum Transport And The Effect Of Residual Fluctuations In Strong E × B Shear

机译：强E×B剪切作用下湍流驱动的新古典非扩散环面动量的运动学研究及残余波动的影响

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A significant inward flux of toroidal momentum is found in global gyrokinetic simulations of ion temperature gradient turbulence, leading to core plasma rotation spin-up. The underlying mechanism is identified to be the generation of residual stress due to the k_‖ symmetry breaking induced by global quasistationary zonal flow shear. Simulations also show a significant off-diagonal element associated with the ion temperature gradient in the neoclassical momentum flux, while the overall neoclassical flux is small. In addition, the residual turbulence found in the presence of strong E × B flow shear may account for neoclassical-level ion heat and anomalous momentum transport widely observed in experiments.

机译：在离子温度梯度湍流的整体陀螺动力学模拟中发现了很大的环形动量向内通量，导致核心等离子体旋转旋转。潜在的机理被确定为是由于整体准静态纬向流切变引起的k_′对称破坏而产生的残余应力。模拟还显示，与新古典动量通量中的离子温度梯度相关的显着非对角线元素，而新古典通量整体较小。另外，在强E×B流动剪切作用下发现的残留湍流可能是新古典水平的离子热和实验中广泛观察到的异常动量传输的原因。

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来源
《Physical review letters》 |2009年第3期|p.160-163|共4页
作者
W. X. Wang; T. S. Hahm; S. Ethier; G. Rewoldt; W. W. Lee; W. M. Tang; S. M. Kaye; P. H. Diamond;
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作者单位

Plasma Physics Laboratory, Princeton University, P.O. Box 451, Princeton, New Jersey 08543, USA;

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原文格式 PDF
正文语种 eng
中图分类物理学;
关键词
transport properties; plasma turbulence; gyrofluid and gyrokinetic simulations;

机译：输运性质;等离子体湍流;旋流和旋流动力学模拟;

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Gyrokinetic Studies On Turbulence-driven And Neoclassical Nondiffusive Toroidal-momentum Transport And The Effect Of Residual Fluctuations In Strong E × B Shear

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