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等离子体中热阴极鞘层的结构 被引量:4

Sheath structure of a hot-cathode in plasma
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摘要 结合热阴极电子发射理论和等离子体鞘层流体方程研究了热阴极附近存在虚阴极结构时的等离子体鞘层问题,采用Sagdeev势的方法讨论了鞘层解和广义Bohm判据.结果表明,不同于普通的Bohm鞘,由于热阴极附近存在大量发射电子,影响整个等离子体鞘层结构,使得进入鞘层的离子临界Mach数不是独立的常数,而是与鞘层电位降等参数有关的物理量.临界Mach数随着鞘层电位降(从鞘边缘到虚阴极)先增大后降低,并且随着热阴极温度的升高单调增大.此外,在平板模型下有相当可观的残余热发射电子越过虚阴极鞘层进入等离子体. The plasma sheath in the presence of virtual-cathode structure near a hot cathode was studied by combining the theory of thermionic emission and plasma fluid equations. Using Sagdeev potential method,the sheath solution and generalized Bohm criterion were discussed. It is shown that,different from usual Bohm sheath,the critical ion Mach number at the sheath-presheath edge is not an independent constant but depends on sheath potential drop as well as other parameters,owing to the fact that there exists large quantity of thermionic electrons near the hot cathode which has a significant influence on the whole sheath structure. The critical Mach number first increases and then decreases with the potential drop(from sheath-presheath edge to the virtual cathode) ,and monotonically increases with the temperature of the hot cathode. In the plane geometry,there exists an appreciable quantity of residual thermionic electrons which traverse the virtual cathode and sheath and enter into bulk plasma.
出处 《物理学报》 SCIE EI CAS CSCD 北大核心 2009年第12期8432-8439,共8页 Acta Physica Sinica
基金 国家自然科学基金(批准号:10875121 40831062) 中国科学院知识创新工程(批准号:KJCX2-YW-N28) 国家重点基础研究计划(批准号:2008CB717800)资助的课题~~
关键词 鞘层 热阴极发射 Bohm判据 sheath thermionic emission Bohm criterion
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  • 1魏合林,刘祖黎.等离子体化学气相沉积的实验与理论研究[J].物理学报,1995,44(8):1237-1243. 被引量:2
  • 2张庆瑜,马腾才.薄膜定量分析中的Auger线型分析方法[J].大连理工大学学报,1997,37(2):147-153. 被引量:2
  • 3[1]Whipple E C 1981 Rep.Prog.Phys.44 1198
  • 4[2]Whipple E C,Northrop T G and Mendis D A 1985 J.Geophys.Res.90 7405
  • 5[3]Goertz C K 1989 Rev.Geophys.27 271
  • 6[4]Rao N N,Shukla P K and Yu M Y 1990 Planet.Space Sci.38 543
  • 7[5]Godyak V A and Sternberg N 1990 IEEE Trans.Plasma Sci.SP-18 159
  • 8[6]Sheridan T E and Goree J 1991 Phys.Fluids B 3 2796
  • 9[7]Northrop T G 1992 Phys.Scripta 45 475
  • 10[8]Varma R K,Shukla P K and Rishan V K 1993 Phys.Rev.E 47 3612

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