DocumentCode
2683054
Title
Obliquely propagating ion acoustic double layers in a multicomponent magnetized plasma
Author
Yadav, L.L. ; Sharma, Shubha Rani
fYear
1990
fDate
21-23 May 1990
Firstpage
126
Abstract
Summary form only given, as follows. Taking into account the appropriate coordinate transformation and charge separation effect, the reduction perturbation method is used to derive an mKdV equation for a multicomponent magnetized plasma having two Maxwellian distributed electrons and two warm adiabatic ions. The double-layer solution of the mKdV equation was considered in detail. It is found that the width of the double layer increases as the obliqueness θ is increased, where θ is the angle between wave vector and magnetic field, while the effect of obliqueness on the amplitude of the double layer is negligible. The effect of finite ion temperature is to increase (decrease) the amplitude of the compressive (rarefactive) double layer and decrease (increase) its width. The effect of the concentration on second ion purity, and the concentration and the temperature ratios of two electron species on the amplitude and width of the double layer was also studied
Keywords
plasma sheaths; Korteweg Vries equation; Maxwellian distributed electrons; charge separation effect; compressive double layer; concentration; coordinate transformation; finite ion temperature; mKdV equation; magnetic field; multicomponent magnetized plasma; obliquely propagating ion acoustic double layers; obliqueness; rarefactive double layer; reduction perturbation method; second ion purity; temperature ratios; warm adiabatic ions; wave vector; width;
fLanguage
English
Publisher
ieee
Conference_Titel
Plasma Science, 1990. IEEE Conference Record - Abstracts., 1990 IEEE International Conference on
Conference_Location
Oakland, CA, USA
Type
conf
DOI
10.1109/PLASMA.1990.110613
Filename
5725889
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