Numerical Study on Characteristics of Argon Radio-Frequency Glow Discharge with Varying gas Pressure
YU Qian1,3, DENG Yong-Feng1,3, LIU Yue1,2, HAN Xian-Wei3
1State Key Laboratory of Materials Modification by Laser, Ion and Electron Beams, School of Physics and Optoelectronic Technology, Dalian University of Technology, Dalian 1160852College of Advanced Science and Technology, Dalian University of technology, Dalian 1160853Xi'an Space Power Institute, Xi'an 710100
Numerical Study on Characteristics of Argon Radio-Frequency Glow Discharge with Varying gas Pressure
YU Qian1,3, DENG Yong-Feng1,3, LIU Yue1,2, HAN Xian-Wei3
1State Key Laboratory of Materials Modification by Laser, Ion and Electron Beams, School of Physics and Optoelectronic Technology, Dalian University of Technology, Dalian 1160852College of Advanced Science and Technology, Dalian University of technology, Dalian 1160853Xi'an Space Power Institute, Xi'an 710100
摘要A one-dimensional fluid simulation on argon rf glow discharge with varying linearly gas pressure from 1Torr to 100Torr is performed. The model based on mass conservation equations for electron and ion under diffusion and mobility approximation, and the electron energy conservation equation is solved numerically by finite volume method. The numerical results show that a uniform plasma with high density can be obtained from rf glow discharge with varying gas pressure, and the density of plasma becomes higher as the gas pressure varies from 1Torr to 100Torr. It is also shown that in the range of the gas pressure from 1Torr to 100Torr with the slower rate of varying gas pressure, higher density of plasma can be obtained.
Abstract:A one-dimensional fluid simulation on argon rf glow discharge with varying linearly gas pressure from 1Torr to 100Torr is performed. The model based on mass conservation equations for electron and ion under diffusion and mobility approximation, and the electron energy conservation equation is solved numerically by finite volume method. The numerical results show that a uniform plasma with high density can be obtained from rf glow discharge with varying gas pressure, and the density of plasma becomes higher as the gas pressure varies from 1Torr to 100Torr. It is also shown that in the range of the gas pressure from 1Torr to 100Torr with the slower rate of varying gas pressure, higher density of plasma can be obtained.
YU Qian;DENG Yong-Feng;LIU Yue;HAN Xian-Wei. Numerical Study on Characteristics of Argon Radio-Frequency Glow Discharge with Varying gas Pressure[J]. 中国物理快报, 2008, 25(7): 2569-2572.
YU Qian, DENG Yong-Feng, LIU Yue, HAN Xian-Wei. Numerical Study on Characteristics of Argon Radio-Frequency Glow Discharge with Varying gas Pressure. Chin. Phys. Lett., 2008, 25(7): 2569-2572.