Investigations of diffusional effects in applied‐B ion diodes

Physics of fluids. B, Plasma physics Pub Date : 1993-12-01 DOI:10.1063/1.860956
T. Westermann, R. Schuldt
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引用次数: 6

Abstract

In this article, a general study of diffusional effects is made numerically as well as theoretically with the aim to reproduce not only the current scaling of ion diodes but also the divergence of the ion beam and physical features such as virtual cathode movement due to the diamagnetic effect. It has been observed experimentally that the ion current exceeds that quantity which would be expected in the presence of a strong magnetic field. It is demonstrated that with the introduction of a diffusional field Eθ into the stationary 21/2‐dimensional particle‐in‐cell code based on boundary‐fitted coordinates [T. Westermann, Nucl. Instrum. Methods A 263, 271 (1988)] the simulation results agree well with experiment. This ad hoc model is supported theoretically by linear stability analysis of the stationary state.
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应用- B离子二极管扩散效应的研究
本文从理论上和数值上对扩散效应进行了全面的研究,目的不仅是再现离子二极管的电流缩放,而且再现离子束的发散和由反磁效应引起的虚阴极运动等物理特征。在实验中观察到,离子电流超过了在强磁场下预期的量。本文证明了在基于边界拟合坐标的平稳的21/2维细胞内粒子码中引入扩散场Eθ。科·,诊断。Instrum。方法[A 263, 271(1988)]模拟结果与实验结果吻合较好。该模型得到了稳态线性稳定性分析的理论支持。
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Physics of fluids. B, Plasma physics
Physics of fluids. B, Plasma physics
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Klein–Gordon equation and reflection of Alfvén waves in nonuniform media IMPLODING CYLINDRICAL SHOCK IN A PERFECTLY CONDUCTING AND RADIATING GAS Investigations of diffusional effects in applied‐B ion diodes Linear and nonlinear analysis of the cyclotron two-stream instability An experimental study of magnetic islands as Hamiltonian systems
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