与阻力气球和阻力漂移波驱动湍流相关的多物种等离子体异常输运问题

Physics of Plasmas Pub Date : 2024-05-01 DOI:10.1063/5.0209754

S. I. Krasheninnikov

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引用次数: 0

摘要

在 "冷 "离子近似中考虑了与电阻气球和电阻漂移波湍流有关的多物种等离子体的异常输运。研究发现，与电阻漂移波湍流类似[见 A. R. Knyazev 和 S. I. Krasheninnikov，Phys. Plasmas 31, 012502 (2024)；以及 S. I. Krasheninnikov 和 R. D. Smirnov，Phys.等离子体（待出版）]气球驱动的加入并没有改变多物种等离子体异常输运的主要特征：(i) 所有离子种类的输运都被描述为静电势和电子密度扰动湍流场中被动标量的输运；(ii) 质量与电荷比值较大的离子种类的密度有在等离子体流的漩涡中积累/消耗的趋势；(iii) 所有等离子体种类（包括电子和离子）的跨场输运都用相同的反常输运系数来描述。

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On anomalous transport of multi-species plasma associated with the resistive ballooning and resistive drift waves driven turbulence

Anomalous transport of multi-species plasma related to the resistive ballooning and resistive drift wave turbulence is considered in a “cold” ion approximation. It is found that similar to the resistive drift wave turbulence [see A. R. Knyazev and S. I. Krasheninnikov, Phys. Plasmas 31, 012502 (2024); and S. I. Krasheninnikov and R. D. Smirnov, Phys. Plasmas (to be published)] the addition of the ballooning drive does not change the main features of anomalous transport of the multi-species plasma: (i) The transport of all ion species is described as a transport of the passive scalars in the turbulent field of the electrostatic potential and electron density perturbation; (ii) the density of ion species with a larger ratio of the mass to charge has the tendency to the accumulation/depletion in the vortices of plasma flow; and (iii) the cross-field transport of all plasma species (including electrons and ions) is described by the same anomalous transport coefficient.

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Physics of Plasmas

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