Kinetic modeling of E-to-H mode transition in inductively coupled hydrogen plasmas

K. Nishida; S. Mattei; S. Mochizuki; J. Lettry; A. Hatayama

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Kinetic modeling of E-to-H mode transition in inductively coupled hydrogen plasmas

机译：电感耦合氢等离子体中E到H模式转变的动力学模型

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Radio Frequency (RF) Inductively Coupled Plasmas (ICPs) are widely known for their two discharge modes, i.e., H-mode and E-mode, where the dynamics of the plasmas are completely different from each other. We have performed a kinetic simulation of a hydrogen plasma discharge in order to clarify the discharge mechanism and the E-to-H transition of the RF ICPs. The numerical simulation results, such as the time variations of spatial distribution of electron density and the power dissipated in the plasma, show the characteristic changes of the plasma dynamics due to E-to-H mode transition. Especially, the drastic change during the mode transition has been observed in the time evolution of the electron energy distribution function (EEDF). The EEDF deviates from a Maxwellian distribution before/after the transition and the deviation is more significant in the E-mode phase. These results indicate the importance of kinetic modeling for the physical understanding of E-to-H transition.

机译：射频（RF）电感耦合等离子体（ICPs）以其两种放电模式（即H模式和E模式）而广为人知，其中等离子体的动力学完全不同。我们已经对氢等离子体放电进行了动力学模拟，以阐明RF ICP的放电机理和E-H跃迁。数值模拟结果（例如电子密度的空间分布的时间变化和等离子体中的耗散功率）显示了由于E到H模式跃迁而引起的等离子体动力学特性变化。特别是，在电子能量分布函数（EEDF）的时间演化过程中已观察到模式转变期间的剧烈变化。 EEDF偏离过渡之前/之后的麦克斯韦分布，并且在E模式阶段偏差更大。这些结果表明动力学建模对于从E到H跃迁的物理理解的重要性。

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《Journal of Applied Physics 》 |2016年第23期| 233302.1-233302.7| 共7页
作者
K. Nishida; S. Mattei; S. Mochizuki; J. Lettry; A. Hatayama;
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作者单位

Graduate School of Science and Technology, Keio University, 3-14-1 Hiyoshi, Kouhoku-ku, Yokohama 223-8522, Japan;

CERN, 1211 Geneva 23, Switzerland;

Graduate School of Science and Technology, Keio University, 3-14-1 Hiyoshi, Kouhoku-ku, Yokohama 223-8522, Japan;

CERN, 1211 Geneva 23, Switzerland;

Graduate School of Science and Technology, Keio University, 3-14-1 Hiyoshi, Kouhoku-ku, Yokohama 223-8522, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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1. Spatiotemporal optical structure of plasmas in the E-to-H mode transition in an inductively coupled plasma in Ar [J] . Morishita S., Hayashi Y., Makabe T. Plasma Sources Science & Technology . 2010 ,第5期

机译：Ar中感应耦合等离子体中E-H模式跃迁的等离子体时空光学结构
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机译：通过流体模型在氢感应耦合等离子体中的模式转变和磁滞不连续
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机译：基于混合动力学方法的电感耦合等离子体动力学二维建模
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机译：氢气和氧气感应耦合等离子体中的等离子体参数和模式转变的研究
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机译：电感耦合等离子体源的自洽多维电子动力学模型。
6. Analytical method for total chromium and nickel in urine using an inductively coupled plasma-universal cell technology-mass spectrometer (ICP-UCT-MS) in kinetic energy discrimination (KED) mode [O] . C. Derrick Quarles Jr., Deanna R. Jones, Jeffery M. Jarrett, -1

机译：动能辨别（KED）模式下的电感耦合等离子体通用细胞技术质谱仪（ICP-UCT-MS）分析尿液中的总铬和镍
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机译：plasmoids和电感耦合等离子体中的E-to-H跃迁

Kinetic modeling of E-to-H mode transition in inductively coupled hydrogen plasmas

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