DocumentCode
1038076
Title
Cascade mechanism of nonlinear interactions between modes in a turbulent plasma
Author
Tchen, C.M.
Author_Institution
City College of the City University of New York, N. Y.
Volume
17
Issue
3
fYear
1970
fDate
3/1/1970 12:00:00 AM
Firstpage
247
Lastpage
251
Abstract
A hydrodynamical model of plasma turbulence is developed. A cascade concept is utilized to solve the problem of closure, which is characteristic of any nonlinear system. The spectra of kinetic and electrostatic energies are investigated for both the collisional and collisionless cases. In the former case, the spectrum of potential energy from the electrostatic potential fluctuations, as a function of the wave number 
, and denoted by 
, follows the laws 
and 
in the inertial and dissipative subranges, respectively. In the latter case, the dissipative law 
is derived. The solutions of the kinetic energy spectrum are also found. The anomalous diffusion, called the Bohm diffusion, is derived in the present theory, and is found to play the role of a sink of energy flux across a potential spectrum.
, and denoted by , follows the laws and in the inertial and dissipative subranges, respectively. In the latter case, the dissipative law is derived. The solutions of the kinetic energy spectrum are also found. The anomalous diffusion, called the Bohm diffusion, is derived in the present theory, and is found to play the role of a sink of energy flux across a potential spectrum.Keywords
Electromagnetic radiation; Electrons; Fluctuations; Magnetic fields; Magnetic resonance; Plasma density; Plasma materials processing; Plasma properties; Plasma waves; Solids;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/T-ED.1970.16963
Filename
1476147
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