温度梯度驱动的磁剪切俘获离子模式的整体陀螺动力学稳定性

Transport Theory and Statistical Physics Pub Date : 2011-12-02 DOI:10.1080/00411450.2011.651043

A. Ghizzo, M. E. Mouden, D. Sarto, X. Garbet, Y. Sarazin

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引用次数: 5

摘要

捕获离子模式的全局陀螺仪动力学Vlasov模拟表明，离子温度梯度(ITG)不稳定性通过非线性环面耦合达到饱和。通过求解捕获离子的回旋运动和反弹运动平均的弗拉索夫方程，研究了捕获离子的模式。然后在二维相空间中计算捕获离子的分布函数，由两个绝热不变量参数化，纵向作用和磁矩，存在磁切变。我们的模型可以看作是标准单场hasegawa - mima型的动力学版本，并且可以从捕获离子驱动的湍流模型中获得宽频谱。然后讨论了在不稳定性的非线性区域中出现的一些有趣的新特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Global Gyrokinetic Stability of Temperature-Gradient-Driven Trapped Ion Modes with Magnetic Shear

Global gyrokinetic Vlasov simulations for trapped ion modes indicate that the ion temperature gradient (ITG) instability saturates via nonlinear toroidal coupling. Trapped Ion modes were studied by solving a Vlasov equation averaged over the cyclotron and bounce motion of trapped ions. The distribution function, for trapped ions, is then calculated in a two-dimensional phase space, parametrized by two adiabatic invariants, the longitudinal action and the magnetic moment, in presence of a magnetic shear. Our model can be viewed as a kinetic version of the standard one-field Hasegawa-Mima-type and a broad frequency spectrum can originate from model for trapped-ion driven turbulence. Some interesting new features, which appear in the nonlinear regime of the instability, are then discussed.

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Transport Theory and Statistical Physics 物理-物理：数学物理

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>12 weeks