使用广义长谷川-若谷模型和 FLR 效应的多物种边缘等离子体的反常输运

S. Krasheninnikov, R. D. Smirnov
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引用次数: 1

摘要

利用广义长谷川-若谷模型[A. R. Knyazev 和 S. I. Krasheninnikov,Phys. Plasmas 31, 012502 (2024)]考虑了多物种等离子体的反常传输,并进一步扩展以纳入有限拉莫半径(FLR)效应。通过引入 "相关 "熵,结果表明,在没有 FLR 效应的情况下(所有离子种类的反常传输被描述为静电势和电子密度波动湍流场中被动标量的传输),离子种类的波动密度收敛到与电子密度和涡度波动成线性比例的状态,这证实了[A. R. Knyazev 和 S. I. Krasheninnikov,Phys. Plasmas 31, 012502 (2024)]之前的数值发现。然而,与 "冷 "离子近似相反,在包含 FLR 效应的情况下,等离子体湍流和所有离子种类的动力学都变得相互关联。因此,为简单起见,本研究只考虑了 "痕量 "杂质分数较小的 FLR 效应。研究发现,对于轻(氖)"痕量 "杂质,FLR 效应会降低异常通量和密度波动。然而,对于重(钨)"痕量 "杂质,FLR效应对反常传输的影响是非单调的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Anomalous transport of multi-species edge plasma with the generalized Hasegawa–Wakatani model and the FLR effects
Anomalous transport of multi-species plasma is considered with the generalized Hasegawa–Wakatani model [A. R. Knyazev and S. I. Krasheninnikov, Phys. Plasmas 31, 012502 (2024)] further extended to incorporate the Finite Larmor Radius (FLR) effects. By introducing the “associated” enstrophy, it is shown that with no FLR effects (where anomalous transport of all ion species is described as a transport of passive scalars in the turbulent fields of the electrostatic potential and electron density fluctuations) the fluctuating densities of ion species converge to the state where they are linearly proportional to electron density and vorticity fluctuations, which confirm previous numerical findings of [A. R. Knyazev and S. I. Krasheninnikov, Phys. Plasmas 31, 012502 (2024)]. However, in contrast to the “cold” ion approximation, with the FLR effects included, both the plasma turbulence and the dynamics of all ion species become interconnected. Therefore, for simplicity, the FLR effects in this work were considered only for a small “trace” impurity fraction. It is found that for light (neon) “trace” impurity, the FLR effects reduce both anomalous flux and density fluctuations. However, for heavy (tungsten) “trace” impurity, the FLR effects exhibit non-monotonic impact on anomalous transport.
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