Formation of Field Reversed Configuration (FRC) on the Yingguang-I device

Formation of Field Reversed Configuration (FRC) on the Yingguang-I device

As a hybrid approach to realizing fusion energy, Magnetized Target Fusion (MTF) based on the Field Reversed Configuration (FRC), which has the plasma density and confinement time in the range between magnetic and inertial confinement fusion, has been recently widely pursued around the world. To inve...

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Main Authors: Qizhi Sun, Xianjun Yang, Yuesong Jia, Lulu Li, Dongfan Fang, Xiaoming Zhao, Weidong Qin, Zhengfen Liu, Wei Liu, Jun Li, Yuan Chi, Xiaoguang Wang
Format: Article
Language:English
Published: AIP Publishing LLC 2017-09-01
Series:Matter and Radiation at Extremes
Online Access:http://dx.doi.org/10.1016/j.mre.2017.07.003
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spelling doaj-2fb1c82a2e3740afa69588ff3749254a2020-11-25T02:37:03ZengAIP Publishing LLCMatter and Radiation at Extremes2468-080X2017-09-012526327410.1016/j.mre.2017.07.003004705MREFormation of Field Reversed Configuration (FRC) on the Yingguang-I deviceQizhi Sun0Xianjun Yang1Yuesong Jia2Lulu Li3Dongfan Fang4Xiaoming Zhao5Weidong Qin6Zhengfen Liu7Wei Liu8Jun Li9Yuan Chi10Xiaoguang Wang11Institute of Fluid Physics, China Academy of Engineering Physics, Miangyang 621900, ChinaInstitute of Applied Physics and Computational Mathematics, Beijing 100088, ChinaInstitute of Fluid Physics, China Academy of Engineering Physics, Miangyang 621900, ChinaInstitute of Applied Physics and Computational Mathematics, Beijing 100088, ChinaInstitute of Fluid Physics, China Academy of Engineering Physics, Miangyang 621900, ChinaInstitute of Fluid Physics, China Academy of Engineering Physics, Miangyang 621900, ChinaInstitute of Fluid Physics, China Academy of Engineering Physics, Miangyang 621900, ChinaInstitute of Fluid Physics, China Academy of Engineering Physics, Miangyang 621900, ChinaInstitute of Fluid Physics, China Academy of Engineering Physics, Miangyang 621900, ChinaInstitute of Fluid Physics, China Academy of Engineering Physics, Miangyang 621900, ChinaInstitute of Fluid Physics, China Academy of Engineering Physics, Miangyang 621900, ChinaInstitute of Applied Physics and Computational Mathematics, Beijing 100088, ChinaAs a hybrid approach to realizing fusion energy, Magnetized Target Fusion (MTF) based on the Field Reversed Configuration (FRC), which has the plasma density and confinement time in the range between magnetic and inertial confinement fusion, has been recently widely pursued around the world. To investigate the formation and confinement of the FRC plasma injector for MTF, the Yingguang-I, which is an FRC test device and contains a multi-bank program-discharged pulsed power sub-system, was constructed at the Institute of Fluid Physics (IFP), China. This paper presents the pulsed power components and their parameters of the device in detail, then gives a brief description of progress in experiments of FRC formation. Experimental results of the pulsed power sub-system show that the peak current/magnetic field of 110 kA/0.3 T, 10 kA/1.2 T and 1.7 MA/3.4 T were achieved in the bias, mirror and θ-pinch circuits with quarter cycle of 80 μs, 700 μs and 3.8 μs respectively. The induced electric field in the neutral gas was greater than 0.25 kV/cm when the ionization bank was charged to 70 kV. With H2 gas of 8 Pa, the plasma target of density 1016 cm−3, separatrix radius 4 cm, half-length 17 cm, equilibrium temperature 200 eV and lifetime 3 μs (approximately the half pulse width of the reversed field) have been obtained through the θ-pinch method when the bias, mirror, ionization and θ-pinch banks were charged to 5 kV, 5 kV, 55 kV and ±45 kV respectively. The images from the high-speed end-on framing camera demonstrate the formation processes of FRC and some features agree well with the results with the two-dimension magneto hydrodynamics code (2D-MHD).http://dx.doi.org/10.1016/j.mre.2017.07.003
collection DOAJ
language English
format Article
sources DOAJ
author Qizhi Sun
Xianjun Yang
Yuesong Jia
Lulu Li
Dongfan Fang
Xiaoming Zhao
Weidong Qin
Zhengfen Liu
Wei Liu
Jun Li
Yuan Chi
Xiaoguang Wang
spellingShingle Qizhi Sun
Xianjun Yang
Yuesong Jia
Lulu Li
Dongfan Fang
Xiaoming Zhao
Weidong Qin
Zhengfen Liu
Wei Liu
Jun Li
Yuan Chi
Xiaoguang Wang
Formation of Field Reversed Configuration (FRC) on the Yingguang-I device
Matter and Radiation at Extremes
author_facet Qizhi Sun
Xianjun Yang
Yuesong Jia
Lulu Li
Dongfan Fang
Xiaoming Zhao
Weidong Qin
Zhengfen Liu
Wei Liu
Jun Li
Yuan Chi
Xiaoguang Wang
author_sort Qizhi Sun
title Formation of Field Reversed Configuration (FRC) on the Yingguang-I device
title_short Formation of Field Reversed Configuration (FRC) on the Yingguang-I device
title_full Formation of Field Reversed Configuration (FRC) on the Yingguang-I device
title_fullStr Formation of Field Reversed Configuration (FRC) on the Yingguang-I device
title_full_unstemmed Formation of Field Reversed Configuration (FRC) on the Yingguang-I device
title_sort formation of field reversed configuration (frc) on the yingguang-i device
publisher AIP Publishing LLC
series Matter and Radiation at Extremes
issn 2468-080X
publishDate 2017-09-01
description As a hybrid approach to realizing fusion energy, Magnetized Target Fusion (MTF) based on the Field Reversed Configuration (FRC), which has the plasma density and confinement time in the range between magnetic and inertial confinement fusion, has been recently widely pursued around the world. To investigate the formation and confinement of the FRC plasma injector for MTF, the Yingguang-I, which is an FRC test device and contains a multi-bank program-discharged pulsed power sub-system, was constructed at the Institute of Fluid Physics (IFP), China. This paper presents the pulsed power components and their parameters of the device in detail, then gives a brief description of progress in experiments of FRC formation. Experimental results of the pulsed power sub-system show that the peak current/magnetic field of 110 kA/0.3 T, 10 kA/1.2 T and 1.7 MA/3.4 T were achieved in the bias, mirror and θ-pinch circuits with quarter cycle of 80 μs, 700 μs and 3.8 μs respectively. The induced electric field in the neutral gas was greater than 0.25 kV/cm when the ionization bank was charged to 70 kV. With H2 gas of 8 Pa, the plasma target of density 1016 cm−3, separatrix radius 4 cm, half-length 17 cm, equilibrium temperature 200 eV and lifetime 3 μs (approximately the half pulse width of the reversed field) have been obtained through the θ-pinch method when the bias, mirror, ionization and θ-pinch banks were charged to 5 kV, 5 kV, 55 kV and ±45 kV respectively. The images from the high-speed end-on framing camera demonstrate the formation processes of FRC and some features agree well with the results with the two-dimension magneto hydrodynamics code (2D-MHD).
url http://dx.doi.org/10.1016/j.mre.2017.07.003
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