Numerical study of the self-pulsing of DC discharge: from corona to parallel-plate configurations

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作者
张曼琦 [1 ]
何锋 [1 ]
蔡红梅 [1 ]
张泽端 [1 ]
高志良 [2 ]
杨铭 [2 ]
王若珏 [2 ]
张宇 [2 ]
李犇 [2 ]
王磊 [2 ]
欧阳吉庭 [1 ]
机构
[1] School of Physics, Beijing Institute of Technology
[2] Beijing Orient Institute of Measurement and
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Plasma Science and Technology. | 2023年 / 25卷 / 12期
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摘要
We present here an investigation of the self-pulsing phenomenon of negative corona and parallel-plate discharge in argon within one frame of a one-dimensional fluid model in cylinder–cylinder electrode geometry. The transition from corona to parallel-plate discharge is obtained by changing the inner and outer radii of the electrodes. The model reproduces the self-pulsing waveform well and provides the spatiotemporal behaviors of the charged particles and electric field during the pulse. The self-pulsing shows a common feature that occurs in various configurations and that does not depend on a specific electrode structure. The self-pulsing is the transformation between a weak-current Townsend mode and a large-current normal glow mode.The behavior of the positive ions is the dominant factor in the formation of the pulse.
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页数:9
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