Effects of drive current rise-time and initial load density distribution on Z-pinch characteristics

doi:10.1088/1009-1963/14/9/030

中国物理B ›› 2005, Vol. 14 ›› Issue (9): 1856-1861.doi: 10.1088/1009-1963/14/9/030

• PHYSICS OF GASES, PLASMAS, AND ELECTRIC DISCHARGES • 上一篇下一篇

Effects of drive current rise-time and initial load density distribution on Z-pinch characteristics

段耀勇, 郭永辉, 王文生, 邱爱慈

Northwest Institute of Nuclear Technology, Xi'an 710024,China

收稿日期:2004-10-26 修回日期:2004-11-26 出版日期:2005-09-20 发布日期:2005-09-20
基金资助:
Project supported by the National Natural Science Foundation of China (Grant No 10035020).

Effects of drive current rise-time and initial load density distribution on Z-pinch characteristics

Duan Yao-Yong (段耀勇), Guo Yong-Hui (郭永辉), Wang Wen-Sheng (王文生), Qiu Ai-Ci (邱爱慈)

Northwest Institute of Nuclear Technology, Xi'an 710024,China

Received:2004-10-26 Revised:2004-11-26 Online:2005-09-20 Published:2005-09-20
Supported by:
Project supported by the National Natural Science Foundation of China (Grant No 10035020).

摘要/Abstract

摘要： A two-dimensional, three-temperature radiation magneto-hydrodynamics model is applied to the investigation of evolutional trends in x-ray radiation power, energy, peak plasma temperature and density as functions of drive current rise-time and initial load density distribution by using the typical experimental parameters of tungsten wire-array Z-pinch on the Qiangguang-I generator. The numerical results show that as the drive current rise-time is shortened, x-ray radiation peak power, energy, peak plasma density and peak ion temperature increase approximately linearly, but among them the x-ray radiation peak power increases more quickly. As the initial plasma density distribution in the radial direction becomes gradually flattened, the peak radiation power and the peak ion-temperature almost exponentially increase, while the radiation energy and the peak plasma density change only a little. The main effect of shortening drive current rise-time is to enhance compression of plasma, and the effect of flattening initial load density distribution in the radial direction is to raise the plasma temperature. Both of the approaches elevate the x-ray peak radiation power.

Abstract: A two-dimensional, three-temperature radiation magneto-hydrodynamics model is applied to the investigation of evolutional trends in x-ray radiation power, energy, peak plasma temperature and density as functions of drive current rise-time and initial load density distribution by using the typical experimental parameters of tungsten wire-array Z-pinch on the Qiangguang-I generator. The numerical results show that as the drive current rise-time is shortened, x-ray radiation peak power, energy, peak plasma density and peak ion temperature increase approximately linearly, but among them the x-ray radiation peak power increases more quickly. As the initial plasma density distribution in the radial direction becomes gradually flattened, the peak radiation power and the peak ion-temperature almost exponentially increase, while the radiation energy and the peak plasma density change only a little. The main effect of shortening drive current rise-time is to enhance compression of plasma, and the effect of flattening initial load density distribution in the radial direction is to raise the plasma temperature. Both of the approaches elevate the x-ray peak radiation power.

Key words: Z-pinch, drive current rise-time, initial load density distribution numerical simulation

中图分类号: (Wire array Z-pinches)

52.59.Qy

52.25.-b (Plasma properties)

段耀勇, 郭永辉, 王文生, 邱爱慈. Effects of drive current rise-time and initial load density distribution on Z-pinch characteristics[J]. 中国物理B, 2005, 14(9): 1856-1861.

Duan Yao-Yong (段耀勇), Guo Yong-Hui (郭永辉), Wang Wen-Sheng (王文生), Qiu Ai-Ci (邱爱慈). Effects of drive current rise-time and initial load density distribution on Z-pinch characteristics[J]. Chinese Physics, 2005, 14(9): 1856-1861.

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Effects of drive current rise-time and initial load density distribution on Z-pinch characteristics

Effects of drive current rise-time and initial load density distribution on Z-pinch characteristics

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