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Kinetic theory of electrostatic surface waves in a magnetized plasma slab

Authors
Lee, Myoung JaeLee, Hee J
Issue Date
Dec-2010
Publisher
Bentham open
Keywords
Plasma surface wave; magnetized; kinetic theory; plasma slab.
Citation
Open Plasma Physics Journal, v.3, pp 131 - 137
Pages
7
Indexed
FOREIGN
Journal Title
Open Plasma Physics Journal
Volume
3
Start Page
131
End Page
137
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/195773
DOI
10.2174/1876534301003010131
ISSN
1876-5343
Abstract
The dispersion relation of electrostatic surface waves propagating in a magnetized plasma slab is derived from Vlasov-Poisson equations under the specular reflection boundary condition. We consider the case that the static magnetic field is parallel to the plasma-vacuum interface and the surface wave propagates obliquely to the magnetic field on the parallel plane. We find that the specular reflection boundary conditions on the plasma slab-vacuum boundaries can be satisfied, even in a magnetized plasma, by simple extension of the electric potential into the vacuum region, due to the inherent symmetry of the distribution function. Utilizing an invariance property of the kinetic surface wave solution, it is shown that the two-mode structure of the surface wave yields the symmetric and anti-symmetric modes. The kinetic dispersion relation is checked against the dispersion relations obtained from fluid equations and shows complete agreement. PACS numbers: 52.35.-g, 52.35. Hr, 52.25.Dg
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