The first observation of the hot ion mode at the Globus-M2 spherical tokamak

G. S. Kurskiev, I. Miroshnikov, N. Sakharov,V. K. Gusev,Yu Petrov, V. B. Minaev,I. M. Balachenkov,N. N. Bakharev, F. Chernyshev,V. Yu Goryainov, A. A. Kavin, N. A. Khromov, E. O. Kiselev, S. Krikunov, K. M. Lobanov, A. D. Melnik, A. N. Novokhatskii, S. Filippov,N. S. Zhiltsov, A. B. Mineev, E. E. Mukhin,M. Patrov,A. Petrov,A. M. Ponomarenko,V. V. Solokha, K. D. Shulyatiev, P. B. Shchegolev, O. M. Skrekel,A. Yu Telnova, E. E. Tkachenko,E. A. Tukhmeneva,V. A. Tokarev,S. Yu Tolstyakov, V. Varfolomeev, A. V. Voronin,A. Yu Yashin, V. A. Solovey, E. G. Zhilin

NUCLEAR FUSION（2022）

引用 5|浏览22

暂无评分

摘要

Hot ion mode was recently achieved at the Globus-M2 spherical tokamak when the toroidal magnetic field was as high as 0.9 T and plasma current 0.35 MA. The injection of two neutral beams with a total power of 0.7 MW and an energy of 30 keV into a plasma with major radius 0.36 m and minor radius 0.22 m (aspect ratio 1.6) made it possible to heat the plasma ions up to 4 keV, while electron density in the plasma center was as high as 8 x 10(19) m(-3). The achievement of high temperatures became possible due to the good thermal insulation of the plasma.

查看译文

关键词

spherical tokamak,energy confinement,neutral beam injection,hot ion mode

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