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Research progress in the study of atmospheric pressure glow barrier discharge
引用本文:LI Xuechen,DONG Lifang and JIA Pengying (College of Physics Science and Technology,Hebei University,Baoding 071002,China). Research progress in the study of atmospheric pressure glow barrier discharge[J]. 自然科学进展(英文版), 2007, 17(3): 247-253
作者姓名:LI Xuechen  DONG Lifang and JIA Pengying (College of Physics Science and Technology  Hebei University  Baoding 071002  China)
作者单位:College of Physics Science and Technology,Hebei University,Baoding 071002,China
摘    要:Atmospheric pressure glow barrier discharge (APGBD) can operate at high pressure, and so vacuum device is not necessary. Furthermore, the produced plasma by APGBD has moderate electron temperature and density besides good uniformity. Therefore, APGBD has extensive potential applications in industry and has been becoming a hot issue in the research of low temperature plasma. In this paper, the main problems in the study of atmospheric pressure glow discharge generated by dielectric barrier discharge, including the experimental setup, judging criterion, discharging conditions, physical mechanisms, and parameter diagnoses, are discussed, and further research prospects of APGBD are proposed.


Research progress in the study of atmospheric pressure glow barrier discharge
LI Xuechen,DONG Lifang,JIA Pengying. Research progress in the study of atmospheric pressure glow barrier discharge[J]. Progress in Natural Science, 2007, 17(3): 247-253
Authors:LI Xuechen  DONG Lifang  JIA Pengying
Abstract:Atmospheric pressure glow barrier discharge (APGBD) can operate at high pressure, and so vacuum device is not necessary. Furthermore, the produced plasma by APGBD has moderate electron temperature and density besides good uniformity. Therefore, APGBD has extensive potential applications in industry and has been becoming a hot issue in the research of low temperature plasma. In this paper, the main problems in the study of atmospheric pressure glow discharge generated by dielectric barrier discharge, including the experimental setup, judging criterion, discharging conditions, physical mechanisms, and parameter diagnoses, are discussed, and further research prospects of APGBD are proposed.
Keywords:atmospheric pressure glow discharge  dielectric barrier discharge  Iow temperature plasma
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