Globus-M2在核聚变反应堆发展范围内的实验

PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON ADVANCES AND APPLICATIONS IN PLASMA PHYSICS (AAPP 2019) Pub Date : 2019-11-26 DOI:10.1063/1.5135474

N. Bakharev, F. Chernyshev, V. Dyachenko, V. Gusev, N. Khromov, E. O. Kiselev, A. Konovalov, G. Kurskiev, V. Minaev, A. D. Melnik, I. Miroshnikov, A. Novokhatsky, M. Patrov, Y. Petrov, N. Sakharov, P. Shchegolev, A. Telnova, V. Tokarev, S. Tolstyakov, E. A. Tukhmeneva, V. Varfolomeev, A. Voronin

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引用次数: 1

摘要

新一代球形托卡马克Globus-M2于2018年发射。它保持了Globus-M的尺寸，但是新的电磁系统可以实现更高的环向磁场和等离子体电流。2019年进行了第一次环向磁场0.7 T、等离子体电流高达300 kA的实验。环形磁场和等离子体电流的增加使放电参数得到全面改善。等离子体温度显著升高，中子速率显著提高。储存能量达到了记录，大约是Globus-M实验的1.5倍。环形低混合波发射提供了明显的电流驱动。下一个更高的环向磁场和等离子体电流实验活动的准备工作正在进行中。新一代球形托卡马克Globus-M2于2018年发射。它保持了Globus-M的尺寸，但是新的电磁系统可以实现更高的环向磁场和等离子体电流。2019年进行了第一次环向磁场0.7 T、等离子体电流高达300 kA的实验。环形磁场和等离子体电流的增加使放电参数得到全面改善。等离子体温度显著升高，中子速率显著提高。储存能量达到了记录，大约是Globus-M实验的1.5倍。环形低混合波发射提供了明显的电流驱动。下一个更高的环向磁场和等离子体电流实验活动的准备工作正在进行中。

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Globus-M2 experiments in scope of fusion-fission reactor development

A new generation spherical tokamak Globus-M2 was launched in 2018. It keeps size of Globus-M, however new electromagnetic system allows achieving higher toroidal magnetic field and plasma current. First experimental campaign with the toroidal magnetic field 0.7 T and plasma current up to 300 kA was carried out in 2019. Increase in the toroidal magnetic field and plasma current resulted in overall improvement of the discharge parameters. Significant plasma temperature growth and neutron rate increase was obtained. Record stored energy, which is approximately one and a half times higher than in the Globus-M experiments, was reached. Toroidal lower hybrid wave launch provided noticeable current drive. Preparation for the next experimental campaigns with the higher toroidal magnetic field and plasma current are on the way.A new generation spherical tokamak Globus-M2 was launched in 2018. It keeps size of Globus-M, however new electromagnetic system allows achieving higher toroidal magnetic field and plasma current. First experimental campaign with the toroidal magnetic field 0.7 T and plasma current up to 300 kA was carried out in 2019. Increase in the toroidal magnetic field and plasma current resulted in overall improvement of the discharge parameters. Significant plasma temperature growth and neutron rate increase was obtained. Record stored energy, which is approximately one and a half times higher than in the Globus-M experiments, was reached. Toroidal lower hybrid wave launch provided noticeable current drive. Preparation for the next experimental campaigns with the higher toroidal magnetic field and plasma current are on the way.

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PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON ADVANCES AND APPLICATIONS IN PLASMA PHYSICS (AAPP 2019)

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