利用理想磁流体力学模型对有轴向剪切流的Z箍缩等离子体不稳定性进行了分析。
A magnetohydrodynamic formulation is derived to investigate the mitigation effects of the sheared axial flow on the Rayleigh-Taylor (RT) instability in Z-pinch plasma.
本文利用理想磁流体力学(MHD)模型对含有轴向流动的Z箍缩等离子体不稳定性进行了分析。
A linear analysis of the ideal magnetohydrodynamic (MHD) stability of the Z-pinch is presented in which plasma flows are included in the equilibrium.
本论文重点研究了Z箍缩等离子体的诊断技术及其辐射特性,具体工作有四个部分:(1)建立一台小型喷气式Z箍缩等离子体装置;
This dissertation stresses the experimental studies on Z-pinch plasma diagnostics and radiation characteristic. We have finished four items of work: (1) Constructing a small-scale Z-pinch device;
本文给出了一组动力箍缩方程,它描述了场反向位形中等离子体的动力箍缩和加热。
In this paper, a set of dynamical equations is derived for the implosion and heating of plasma in a field-reversed pinch.
在反场箍缩条件下可允许用强等离子体电流充分加热等离子体到点火温度,而不需要辅助的中性束或射频加热系统。
The high plasma current allowed in a RFP is expected to be sufficient to heat the plasma to ignition without the need of auxiliary neutral-beam or radio-frequency heating.
当相邻各丝的等离子体膨胀到相互接触和汇合的程度,Z箍缩的主电流才开始加载,驱动各丝汇合形成的等离子体套筒内爆。
Main current of Z pinch is loaded and then it driven the plasma liner to implode when singe wire plasma column touches and couples with each other.
使用紧凑式汤姆生离子谱仪测量Z箍缩氖气等离子体的辐射离子束能谱。
Analyzing the energy spectra of ion beams emitted from neon Z-pinch plasma with a compact Thomson spectrometer.
载电流等离子体柱由于外磁场压强大于其内部热压强,等离子体柱发生箍缩效应。
The pinch-effect will occur in plasma column because magnetic field pressure outside is bigger than thermal pressure inside of the plasma column carrying electric current.
载电流等离子体柱由于外磁场压强大于其内部热压强,等离子体柱发生箍缩效应。
The pinch-effect will occur in plasma column because magnetic field pressure outside is bigger than thermal pressure inside of the plasma column carrying electric current.
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