Forward modelling of the Cotton-Mouton effect polarimetry on EAST tokamak

IF 1.6 3区物理与天体物理 Q3 PHYSICS, FLUIDS & PLASMAS

Plasma Science & Technology Pub Date : 2023-12-14 DOI:10.1088/2058-6272/ad15df

Minyong Shen, Jibo Zhang, Yao Zhang, Y. Jie, Haiqing Liu, Jinlin Xie, Weixing Ding

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Abstract

Measurement of plasma electron density by far-infrared laser polarimetry has become a routine and indispensable tool in magnetic confinement fusion research. This article presents the design of a Cotton-Mouton polarimetric interferometer, which provides a reliable density measurement without fringe jumps. Cotton-Mouton effect on EAST is studied by Stokes equation with three parameters (s1, s2, s3). It demonstrates that under the condition of a small Cotton-Mouton effect, parameter s2 contains information about Cotton-Mouton effect which is proportional to the line-integrated density. For a typical EAST plasma, the magnitude of Cotton-Mouton effects is less than 2π for laser wavelength 432µm. Refractive effect due to density gradient is calculated to be negligible. Time modulation of Stokes parameters (s2, s3) provides heterodyne measurement. Due to the instabilities arising from laser oscillation and beam refraction in plasmas, it is necessary for the system to be insensitive to variations in the amplitude of the detection signal. Furthermore, it is shown that non-equal amplitude of X-mode and O-mode within a certain range only affects the DC offset of Stokes parameters (s2,s3) but does not greatly influence the phase measurements of Cotton-Mouton effects.

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EAST 托卡马克上的科顿-穆顿效应极化测量前向建模

利用远红外激光偏振测量法测量等离子体电子密度已成为磁约束聚变研究中不可或缺的常规工具。本文介绍了 Cotton-Mouton 偏振干涉仪的设计，该干涉仪可提供可靠的密度测量，且不会出现条纹跳跃。通过斯托克斯方程研究了 Cotton-Mouton 对 EAST 的影响，该方程有三个参数（s1、s2、s3）。结果表明，在棉-木顿效应较小的条件下，参数 s2 包含棉-木顿效应的信息，该信息与线积分密度成正比。对于典型的 EAST 等离子体，在激光波长为 432µm 时，棉-木顿效应的大小小于 2π。根据计算，密度梯度引起的折射效应可以忽略不计。斯托克斯参数（s2、s3）的时间调制提供了外差测量。由于等离子体中激光振荡和光束折射产生的不稳定性，系统必须对探测信号的振幅变化不敏感。此外，研究还表明，在一定范围内 X 模式和 O 模式的振幅不相等只会影响斯托克斯参数（s2,s3）的直流偏移，而不会对 Cotton-Mouton 效应的相位测量产生很大影响。

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

Plasma Science & Technology 物理-物理：流体与等离子体

CiteScore

3.10

自引率

11.80%

发文量

3773

审稿时长

3.8 months

期刊介绍： PST assists in advancing plasma science and technology by reporting important, novel, helpful and thought-provoking progress in this strongly multidisciplinary and interdisciplinary field, in a timely manner. A Publication of the Institute of Plasma Physics, Chinese Academy of Sciences and the Chinese Society of Theoretical and Applied Mechanics.