Electromagnetic oscillations and anomalous ion scattering in the helically symmetric multiple-mirror trap

IF 2.1 3区物理与天体物理 Q2 PHYSICS, FLUIDS & PLASMAS

Journal of Plasma Physics Pub Date : 2024-02-12 DOI:10.1017/s0022377823001496

Mikhail S. Tolkachev, Anna A. Inzhevatkina, Anton V. Sudnikov, Ivan S. Chernoshtanov

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Abstract

The paper presents an investigation of the plasma fluctuation in the SMOLA helical mirror, which is suspected to be responsible for anomalous scattering. The helical mirror confinement is effective when the ion mean free path is equal to the helix pitch length. This condition can be satisfied in hot collisionless plasma only by anomalous scattering. The wave, which scatters the passing ions, is considered to receive energy from the trapped ions. The oscillations of the electric field in the helically symmetric plasma were observed in experiment. The oscillations have both regular highly correlated and chaotic components. The dependency of the regular component frequency on the Alfvén velocity is linear for

$V_{\rm A} < 2.8 \times 10^6\ \text {m}\ \text {s}^{-1}$

and constant for higher values. It is shown experimentally that the condition for the wave to be in phase resonance with the trapped ions is satisfied in a specific region of the plasma column for the highly correlated component. The amplitude of the chaotic component (up to

$3\ \text {V}\ \text {cm}^{-1}$

) is higher than the estimated electric field required for the ion scattering.

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螺旋对称多镜阱中的电磁振荡和反常离子散射

本文介绍了对 SMOLA 螺旋镜中等离子体波动的研究，怀疑它是造成异常散射的原因。当离子的平均自由路径等于螺旋间距长度时，螺旋镜的约束是有效的。在热的无碰撞等离子体中，只有通过反常散射才能满足这一条件。散射通过离子的波被认为是从被困离子中接收能量。在实验中观察到了螺旋对称等离子体中的电场振荡。振荡既有高度相关的规则成分，也有混乱成分。在 $V_{\rm A} < 2.8 \times 10^6 \text {m}\ \text {s}^{-1}$ 时，规则分量的频率与阿尔弗文速度的关系是线性的，而在更高值时则是恒定的。实验表明，在等离子体柱的特定区域，高相关分量满足了波与被困离子相位共振的条件。混沌分量的振幅（高达 $3\text {V}\\text {cm}^{-1}$ ）高于离子散射所需的估计电场。

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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来源期刊

Journal of Plasma Physics 物理-物理：流体与等离子体

CiteScore

3.50

自引率

16.00%

发文量

106

审稿时长

6-12 weeks

期刊介绍： JPP aspires to be the intellectual home of those who think of plasma physics as a fundamental discipline. The journal focuses on publishing research on laboratory plasmas (including magnetically confined and inertial fusion plasmas), space physics and plasma astrophysics that takes advantage of the rapid ongoing progress in instrumentation and computing to advance fundamental understanding of multiscale plasma physics. The Journal welcomes submissions of analytical, numerical, observational and experimental work: both original research and tutorial- or review-style papers, as well as proposals for its Lecture Notes series.