利用多激光汤姆逊散射测量 Globus-M2 托卡马克的电子温度

IF 0.8 4区物理与天体物理 Q4 PHYSICS, APPLIED Technical Physics Letters Pub Date : 2024-03-14 DOI:10.1134/s1063785023010212

G. S. Kurskiev, N. S. Zhiltsov, A. N. Koval, A. F. Kornev, A. M. Makarov, E. E. Mukhin, Yu. V. Petrov, N. V. Sakharov, V. A. Solovey, E. E. Tkachenko, S. Yu Tolstyakov, P. V. Chernakov

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引用次数: 0

摘要

摘要通过激光辐射的汤姆逊散射Te(R, t)方法对等离子体电子成分进行诊断，可以可靠地测量电子温度和密度的空间分布。在热核反应堆中实施 TS 诊断的障碍之一是，由于辐射引起的吸收和第一壁侵蚀产物对光学元件的污染，导致光学系统的光谱特性失真。因此，使用 TS 方法进行测量的可靠性会随着时间的推移而降低。本文介绍的多激光汤姆逊散射法将解决这一问题。文中还介绍了在 Globus-M2 托卡马克上进行的首次实验结果。

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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Electron Temperature Measurements at the Globus-M2 Tokamak using Multi-Laser Thomson Scattering

Abstract

diagnostics of the plasma electron component by the metho d of Thomson scattering T_e(R, t) of laser radiation makes it possible to reliably measure the spatial distributions of the electron temperature and density. One of the obstacles to the implementation of TS diagnostics in thermonuclear reactors is the distortion of the spectral characteristics of the optical system due to radiation-induced absorption and contamination of optical elements with erosion products of the first wall. As a consequence, the reliability of measurements by the TS method will decrease over time. The paper describes the method of multi-laser Thomson scattering, which will solve this problem. The results of the first experiments on the Globus-M2 tokamak are also presented.

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来源期刊

Technical Physics Letters 物理-物理：应用

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

2-4 weeks

期刊介绍： Technical Physics Letters is a companion journal to Technical Physics and offers rapid publication of developments in theoretical and experimental physics with potential technological applications. Recent emphasis has included many papers on gas lasers and on lasing in semiconductors, as well as many reports on high Tc superconductivity. The excellent coverage of plasma physics seen in the parent journal, Technical Physics, is also present here with quick communication of developments in theoretical and experimental work in all fields with probable technical applications. Topics covered are basic and applied physics; plasma physics; solid state physics; physical electronics; accelerators; microwave electron devices; holography.