It is suggested that the instability is excited in the low density plasma when the electron beam drift velocities exceed the ion acoustic speed.
不稳定性产生的可能机制是由于电子束穿过低密度本底等离子体的漂移速度超过离子声速而激发起来的。
The fluid model was used to study the nonlinear dust drift waves in dusty plasma.
采用流体模型,研究尘埃等离子体中的非线性尘埃—漂移波。
The theoretical analyses predict that the drift wave is the most dangerois low frequency instability in the hot electron plasma.
理论上预示了在热电子等离子体中,等离子体漂移波是最重要的低频不稳定性。
The hot electrons can reduce the growth rate of the interchange mode and drift wave driven by the plasma, and suppress the anomalous plasma transport caused by the drift wave.
热电子能降低等离子体交换模和漂移波的增长率,减少漂移波引起的等离子体反常输运损失。
This paper expands the particle drift in single particle model to the magnetic hydrodynamics and the plasma.
把单粒子模型中粒子导向中心漂移现象推广到磁流体力学和等离子体中去。
The boundary layer flow control using dielectric barrier surface discharge plasma is simulated using Poisson's equation, drift-diffusion model and N-S equations.
使用泊松方程、漂移扩散模型和N—S方程对介质阻隔面放电等离子体控制边界层流动进行了一体化数值模拟。
The boundary layer flow control using dielectric barrier surface discharge plasma is simulated using Poisson's equation, drift-diffusion model and N-S equations.
使用泊松方程、漂移扩散模型和N—S方程对介质阻隔面放电等离子体控制边界层流动进行了一体化数值模拟。
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