Probe Measurements in Experiments with Additional Working Gas Puffing into Frontal Region of Lower Hybrid Antenna of the FT-2 Tokamak

IF 1.1 4区物理与天体物理 Q4 PHYSICS, FLUIDS & PLASMAS

Plasma Physics Reports Pub Date : 2025-09-22 DOI:10.1134/S1063780X2560286X

S. V. Shatalin, M. V. Deryabina, A. B. Altukhov, E. Z. Gusakov, V. V. D’yachenko, L. A. Esipov, M. A. Irzak, A. N. Konovalov, S. I. Lashkul, A. Yu. Popov

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Abstract

In the experiments at the FT-2 tokamak, it was ascertained that the additional puffing of working gas into the region immediately adjacent to the launching antenna suppresses the development of parametric instability, which is considered to be the main obstacle to efficient penetration of the lower hybrid wave into the inner regions of the tokamak plasma. Using probe measurements, radial profiles of electron density and temperature in the scrape-off layer (SOL) were obtained, as well as their changes during the lower hybrid pulse were traced. It was shown that local gas puffing causes toroidal inhomogeneity of the edge plasma parameters. By means of performing direct measurements, the effect of plasma “forcing-out” from the frontal region of the radiating antenna under the action of ponderomotive force in the field of the introduced wave was detected. The effect of ponderomotive force on the edge plasma parameters and, as a consequence, on the antenna–plasma coupling efficiency should be taken into account in large-sized facilities at high powers.

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FT-2托卡马克下混合天线额区附加工作气体充气实验中的探头测量

在FT-2托卡马克的实验中，确定了工作气体向发射天线附近区域的额外膨胀抑制了参数不稳定性的发展，这被认为是低混合波有效穿透到托卡马克等离子体内部区域的主要障碍。利用探针测量，获得了刮擦层（SOL）的电子密度和温度的径向分布，并跟踪了它们在低混合脉冲中的变化。结果表明，局部气体膨化导致边缘等离子体参数的环向不均匀性。采用直接测量的方法，检测了在引入波场的有源动力作用下，等离子体从辐射天线的正面区域“挤出”的效应。在大功率大型设备中，应考虑质动势对边缘等离子体参数的影响，从而影响天线-等离子体耦合效率。

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来源期刊

Plasma Physics Reports 物理-物理：流体与等离子体

CiteScore

1.90

自引率

36.40%

发文量

104

审稿时长

4-8 weeks

期刊介绍： Plasma Physics Reports is a peer reviewed journal devoted to plasma physics. The journal covers the following topics: high-temperature plasma physics related to the problem of controlled nuclear fusion based on magnetic and inertial confinement; physics of cosmic plasma, including magnetosphere plasma, sun and stellar plasma, etc.; gas discharge plasma and plasma generated by laser and particle beams. The journal also publishes papers on such related topics as plasma electronics, generation of radiation in plasma, and plasma diagnostics. As well as other original communications, the journal publishes topical reviews and conference proceedings.