Set of Thomson Scattering Diagnostics for TRT

E. E. Mukhin,S. Yu. Tolstyakov,G. S. Kurskiev,N. S. Zhiltsov, N. V. Ermakov,E. E. Tkachenko,A. N. Koval,V. A. Solovey, S. A. Aleksandrov, A. V. Nikolaev, D. A. Antropov, A. V. Bondar,I. V. Kedrov,T. A. Marchenko,A. F. Kornev,A. M. Makarov, D. L. Bogachev,D. S. Samsonov,E. G. Guk,V. N. Klimov,E. P. Smirnova,A. V. Sotnikov,A. G. Razdobarin,A. N. Bazhenov, I. V. Bocharov, V. A. Bocharnikov,I. M. Bukreev,A. M. Dmitriev,D. I. Elets, I. B. Tereshchenko,L. A. Varshavchik,An. P. Chernakov, P. A. Pankrat’ev, G. V. Marchii, M. Minbaev, K. O. Nikolaenko, N. A. Kungurtsev,N. V. Sakharov,Yu. V. Petrov,A. N. Mokeev

Plasma Physics Reports（2024）

引用 0|浏览6

暂无评分

摘要

Thomson scattering of the core edge and divertor plasma regions of a tokamak with reactor technologies is discussed. The rationale and choice of technical solutions are given, the composition of the Thomson scattering diagnostic complex is discussed, as well as an estimate of the accuracy of measuring both electron temperature and density. Particular attention is paid to ensuring the functionality of the proposed diagnostics in the reactor mode of the tokamak operation and the results of testing diagnostic equipment in the experiments on Globus-M2 tokamak.

查看译文

关键词

TRT,plasma diagnostics,Thomson scattering,polychromator,laser,real-time

AI 理解论文

溯源树

样例

生成溯源树，研究论文发展脉络

Chat Paper

正在生成论文摘要