Comparison of Energy Transport in Plasma with ECR Heating on the L-2M Stellarator and T-10 Tokamak

IF 0.9 4区物理与天体物理 Q4 PHYSICS, FLUIDS & PLASMAS Plasma Physics Reports Pub Date : 2024-06-25 DOI:10.1134/S1063780X24600403

Yu. N. Dnestrovskij, A. V. Melnikov, S. E. Lysenko, A. I. Meshcheryakov, N. K. Kharchev, D. G. Vasilkov, S. E. Grebenshchikov, N. V. Kasyanova, S. V. Cherkasov, I. Yu. Vafin, L. G. Eliseev, D. Yu. Sychugov

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Abstract

Plasma was heated at the second harmonic of electron cyclotron resonance (ECR) in the L-2M stellarator and the T-10 tokamak. The concept of equivalent tokamak and stellarator discharges was extended to the case of both full and partial absorption of EC power. Comparison of experimental electron temperature profiles with profiles calculated using the canonical profiles transport model allows us to estimate the efficiency of ECR heating in the L-2M discharges without suprathermal electrons, which distort the distribution function, preventing reliable measurements of temperature. The dependence of the ECR heating efficiency on the plasma density was obtained, describing experiments on the L-2M and TJ-II stellarators, and on the T-10 tokamak. The energy characteristics (the stored energy and the confinement time) for L-2M discharges were calculated. Predictions for ECR heating in the T-15MD tokamak are considered. The features of solving the ill-posed transport problem for the L-2M are discussed.

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等离子体中的能量传输与 L-2M 恒星器和 T-10 托卡马克上的 ECR 加热的比较

摘要在L-2M恒星器和T-10托卡马克中，等离子体在电子回旋共振（ECR）的二次谐波下被加热。等效托卡马克放电和恒星器放电的概念被扩展到全部和部分吸收电子回旋共振功率的情况。将实验电子温度曲线与使用典型曲线传输模型计算得出的曲线进行比较，可以估算出在没有超热电子的情况下，L-2M 放电中 ECR 加热的效率，因为超热电子会扭曲分布函数，从而阻碍温度的可靠测量。通过在 L-2M 和 TJ-II 恒星器以及 T-10 托卡马克上的实验，我们获得了 ECR 加热效率与等离子体密度的关系。计算了 L-2M 放电的能量特征（存储能量和约束时间）。对 T-15MD 托卡马克中的 ECR 加热进行了预测。讨论了解决 L-2M 不合常理的传输问题的特点。

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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.