A. Ponomarenko, A. Yashin, V. Gusev, E. Kiselev, G. Kurskiev, V. Minaev, Y. Petrov, N. Sakharov, P. Shchegolev, E. Tkachenko, N. Zhiltsov
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引用次数: 1
摘要
本文介绍了利用多普勒反向散射(DBS)对 Globus-M2 托卡马克的湍流结构进行研究的首批结果。安装了一个在 18-26 GHz 范围内探测频率可变的单通道 DBS 系统,用于研究归一化小半径 ρ = 0.9 - 1.1 的边缘等离子体。径向相关多普勒反射仪用于研究 LH 转变后湍流涡的变化。相关分析被应用于 DBS 诊断的复 IQ 信号的相位导数,因为它包含了极性等离子体旋转速度的信息。在 L 模式下,径向相关长度 Lr 估计为 3 厘米,过渡到 H 模式后则减小到约 2 厘米。利用代码 GENE 进行线性局部近似的陀螺动力学建模表明,在 Globus-M2 上的 L 模式和 H 模式中,归一化小半径 ρ = 0.75 处增长率为正的不稳定性是离子温度梯度(ITG)模式。
First results of turbulence investigation on Globus-M2 using radial correlation Doppler reflectometry
The first results of investigation of the turbulence structure using Doppler backscattering (DBS) on the Globus-M2 tokamak are presented. A one-channel DBS system with a variable probing frequency within the 18-26 GHz range was installed to investigate the edge plasma at normalized minor radii ρ = 0.9 – 1.1. Radial correlation Doppler reflectometry was used to study the changes in turbulence eddies after the LH transition. Correlation analysis was applied to the phase derivative of complex IQ signals of the DBS diagnostic as it contains information about the poloidal plasma rotation velocity. In L-mode the radial correlation length Lr is estimated to be 3 cm and after transition to H-mode reduces to approximately 2 cm. Gyrokinetic modelling in a linear local approximation using code GENE indicates that the instability with positive growth rates at the normalized minor radius ρ = 0.75 in L-mode and H-mode on Globus-M2 was the ion temperature gradient (ITG) mode.
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