Reduction of turbulence by enhanced low-frequency zonal flow-like structures in HL-2A edge plasmas

IF 3.5 1区物理与天体物理 Q1 PHYSICS, FLUIDS & PLASMAS Nuclear Fusion Pub Date : 2024-09-16 DOI:10.1088/1741-4326/ad7274

X. Chen, J. Cheng, Y. Xu, L.W. Yan, Q. Zou, Z.H. Huang, J. Chen, L. Liu, W.C. Wang, W. Zhang, N. Wu, C.F. Dong, Z.B. Shi, X.Q. Ji and W.L. Zhong

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Abstract

A low-frequency zonal flow-like (LFZF-like) structure peaking at f ≈ 2.0 kHz has been observed in HL-2A ohmically heated deuterium plasmas using a combined Langmuir probe array. This time-varying potential structure, which has axisymmetric characteristics (n = 0) and a finite radial correlation length (less than 1 cm), was identified to be generated by the three-wave interaction in small-scale turbulence. The results illustrate that the amplitude of the LFZF-like structure dramatically increases with the influence of impurity ions, which is mainly due to the increased strength in the nonlinear energy transfer by the turbulence vortex symmetry-breaking process. Consequently, the enhanced LFZF-like structure has the ability to stabilize the local turbulence via the shearing decorrelation mechanism as demonstrated in this experiment. The observed results given here reveal the essential role played by the LFZF-like structure in the reduction of turbulence levels, which could advance our understanding of the multi-scale physics governing turbulence and the resulting transport in magnetically confined plasmas.

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通过增强 HL-2A 边缘等离子体中的低频带状流样结构减少湍流

利用组合式朗缪尔探针阵列在 HL-2A 欧姆加热氘等离子体中观测到了峰值为 f ≈ 2.0 kHz 的低频带状流（LFZF-like）结构。这种时变势能结构具有轴对称特性（n = 0）和有限的径向相关长度（小于 1 厘米），经确认是由小尺度湍流中的三波相互作用产生的。结果表明，LFZF 样结构的振幅随着杂质离子的影响而急剧增大，这主要是由于湍流涡旋对称性破坏过程中非线性能量转移强度的增加。因此，增强的 LFZF 类结构能够通过剪切相关机制稳定局部湍流，这一点在本实验中得到了证实。这里给出的观测结果揭示了类 LFZF 结构在降低湍流水平方面所起的重要作用，这将推动我们对支配湍流的多尺度物理以及由此产生的磁约束等离子体中的传输的理解。

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来源期刊

Nuclear Fusion 物理-物理：核物理

CiteScore

6.30

自引率

39.40%

发文量

411

审稿时长

2.6 months

期刊介绍： Nuclear Fusion publishes articles making significant advances to the field of controlled thermonuclear fusion. The journal scope includes: -the production, heating and confinement of high temperature plasmas; -the physical properties of such plasmas; -the experimental or theoretical methods of exploring or explaining them; -fusion reactor physics; -reactor concepts; and -fusion technologies. The journal has a dedicated Associate Editor for inertial confinement fusion.