Unappreciated cross-helicity effects in plasma physics: anti-diffusion effects in dynamo and momentum transport

Nobumitsu Yokoi
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引用次数: 1

Abstract

Abstract The cross-helicity (velocity–magnetic-field correlation) effects in the magnetic-field induction and momentum transport in the magnetohydrodynamic (MHD) turbulence are investigated with the aid of the multiple-scale renormalized perturbation expansion analysis, which is a theoretical framework for strongly non-linear and inhomogeneous turbulence. The outline of the theory is presented with reference to the role of the cross-interaction response functions between the velocity and magnetic field. In this formulation, the expressions of the turbulent fluxes: the turbulent electromotive force (EMF) in the mean induction equation and the Reynolds and turbulent Maxwell stresses in the momentum equation are obtained. Related to the expression of EMF, the physical origin of the cross-helicity effect in dynamos, as well as other dynamo effects, is discussed. Properties of dynamo and momentum transport are determined by the spatiotemporal distribution of turbulence. To understand the actual role of the turbulent cross helicity, its transport equations is considered. Several generation mechanisms of cross helicity are discussed with illustrative examples. On the basis of the cross-helicity production mechanisms, its effect in stellar dynamos is discussed. The role of cross helicity in the momentum transport and global flow generation is also argued. One of the situations where the cross-helicity effects both in magnetic-field induction and global flow generation play an important role is the turbulent magnetic reconnection. Characteristic features of turbulence effects in fast reconnection are reviewed with special emphasis on the role of cross helicity in localizing the effective resistivity. Finally, a remark is addressed on an approach that elucidates the structure generation and sustainment in extremely strong turbulence. An appropriate formulation for the anti-diffusion effect, which acts against the usual diffusion effect, is needed. Turbulence modeling approach based on such an analytical formulation is also argued in comparison with the conventional heuristic modeling. The importance of the self-consistent framework treating the non-linear interaction between the mean field and turbulence is stressed as well.
等离子体物理中未被理解的交叉螺旋效应:发电机和动量输运中的反扩散效应
摘要利用多尺度重归一化微扰展开分析,研究了磁流体动力学(MHD)湍流中磁场感应和动量输运中的交叉螺旋(速度-磁场相关)效应,这是强非线性非均匀湍流的理论框架。本文介绍了速度与磁场相互作用响应函数的作用。在该公式中,得到了湍流通量的表达式:平均感应方程中的湍流电动势(EMF)和动量方程中的雷诺应力和湍流麦克斯韦应力。与电动势的表达有关,讨论了发电机中交叉螺旋效应以及其他发电机效应的物理起源。湍流的时空分布决定了发电机和动量输运的性质。为了理解湍流交叉螺旋度的实际作用,考虑了它的输运方程。讨论了交叉螺旋度的几种产生机理,并举例说明。在交叉螺旋产生机理的基础上,讨论了其在恒星发电机中的作用。本文还讨论了交叉螺旋度在动量输运和全球流产生中的作用。湍流磁重联是磁场感应和全局流产生中交叉螺旋效应发挥重要作用的情况之一。回顾了快速重联中湍流效应的特征,重点讨论了交叉螺旋度在有效电阻率局部化中的作用。最后,讨论了一种在极强湍流中结构的产生和维持的方法。需要一个适当的反扩散效应公式,它与通常的扩散效应相反。并与传统的启发式模型进行了比较,讨论了基于这种解析公式的湍流建模方法。同时强调了自洽框架处理平均场与湍流非线性相互作用的重要性。
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5.90
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