Properties of low and medium frequency modes in two-fluid plasma

Akio Ishida; C. Z. Cheng; Y. K.M. Peng

doi:10.1063/1.1905604

Properties of low and medium frequency modes in two-fluid plasma

Akio Ishida, C. Z. Cheng, Y. K.M. Peng

Institute of Space and Plasma Sciences

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

Based on a two-fluid plasma model where the electron mass and the displacement current are neglected, the eigenmode properties such as the frequency and the compressibility are studied. It is found that these properties strongly depend on the two-fluid parameter k ℓi, where k is the wave number of a mode and ℓi is the ion skin depth. Especially it is found that as the two-fluid parameter k ℓi increases beyond unity, the Alfv́n wave, which is an incompressible mode in the magnetohydrodynamics (MHD) limit, becomes compressible and its phase velocity approaches to the acoustic speed. The slow magnetosonic wave, which is compressible in the MHD limit, becomes incompressible as k ℓi increases. Implications of these results are also discussed.

Original language	English
Pages (from-to)	1-9
Number of pages	9
Journal	Physics of Plasmas
Volume	12
Issue number	5
DOIs	https://doi.org/10.1063/1.1905604
Publication status	Published - 2005 May

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

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10.1063/1.1905604

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title = "Properties of low and medium frequency modes in two-fluid plasma",

abstract = "Based on a two-fluid plasma model where the electron mass and the displacement current are neglected, the eigenmode properties such as the frequency and the compressibility are studied. It is found that these properties strongly depend on the two-fluid parameter k ℓi, where k is the wave number of a mode and ℓi is the ion skin depth. Especially it is found that as the two-fluid parameter k ℓi increases beyond unity, the Alf{\'v}n wave, which is an incompressible mode in the magnetohydrodynamics (MHD) limit, becomes compressible and its phase velocity approaches to the acoustic speed. The slow magnetosonic wave, which is compressible in the MHD limit, becomes incompressible as k ℓi increases. Implications of these results are also discussed.",

author = "Akio Ishida and Cheng, {C. Z.} and Peng, {Y. K.M.}",

note = "Funding Information: One of the authors (A.I.) would like to thank the U.S.-Japan fusion research collaboration for the opportunity to carry out part of this work. This work was supported by the basic research fund of Niigata University (A.I) and by Uchida Energy Science Foundation (A.I.).",

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T1 - Properties of low and medium frequency modes in two-fluid plasma

AU - Ishida, Akio

AU - Cheng, C. Z.

AU - Peng, Y. K.M.

N1 - Funding Information: One of the authors (A.I.) would like to thank the U.S.-Japan fusion research collaboration for the opportunity to carry out part of this work. This work was supported by the basic research fund of Niigata University (A.I) and by Uchida Energy Science Foundation (A.I.).

PY - 2005/5

Y1 - 2005/5

N2 - Based on a two-fluid plasma model where the electron mass and the displacement current are neglected, the eigenmode properties such as the frequency and the compressibility are studied. It is found that these properties strongly depend on the two-fluid parameter k ℓi, where k is the wave number of a mode and ℓi is the ion skin depth. Especially it is found that as the two-fluid parameter k ℓi increases beyond unity, the Alfv́n wave, which is an incompressible mode in the magnetohydrodynamics (MHD) limit, becomes compressible and its phase velocity approaches to the acoustic speed. The slow magnetosonic wave, which is compressible in the MHD limit, becomes incompressible as k ℓi increases. Implications of these results are also discussed.

AB - Based on a two-fluid plasma model where the electron mass and the displacement current are neglected, the eigenmode properties such as the frequency and the compressibility are studied. It is found that these properties strongly depend on the two-fluid parameter k ℓi, where k is the wave number of a mode and ℓi is the ion skin depth. Especially it is found that as the two-fluid parameter k ℓi increases beyond unity, the Alfv́n wave, which is an incompressible mode in the magnetohydrodynamics (MHD) limit, becomes compressible and its phase velocity approaches to the acoustic speed. The slow magnetosonic wave, which is compressible in the MHD limit, becomes incompressible as k ℓi increases. Implications of these results are also discussed.

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Properties of low and medium frequency modes in two-fluid plasma

Abstract

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