Abstract
A thought analysis on the self-organization theories of dissipative MHD plasma is presented to lead to three groups of theories that lead to the same relaxed state of {nabla} x B = {lambda}B, in order to find an essential physical picture embedded in the self-organization phenomena due to nonlinear and dissipative processes. The self-organized relaxed state due to the dissipation by the Ohm loss is shown to be formulated generally as the state such that yields the minimum dissipation rate of global auto-and/or cross-correlations between two quantities in j, B, and A for their own instantaneous values of the global correlations. (author).
Citation Formats
Kondoh, Yoshiomi, and Sato, Tetsuya.
Thought analysis on self-organization theories of MHD plasma.
Japan: N. p.,
1992.
Web.
Kondoh, Yoshiomi, & Sato, Tetsuya.
Thought analysis on self-organization theories of MHD plasma.
Japan.
Kondoh, Yoshiomi, and Sato, Tetsuya.
1992.
"Thought analysis on self-organization theories of MHD plasma."
Japan.
@misc{etde_10112635,
title = {Thought analysis on self-organization theories of MHD plasma}
author = {Kondoh, Yoshiomi, and Sato, Tetsuya}
abstractNote = {A thought analysis on the self-organization theories of dissipative MHD plasma is presented to lead to three groups of theories that lead to the same relaxed state of {nabla} x B = {lambda}B, in order to find an essential physical picture embedded in the self-organization phenomena due to nonlinear and dissipative processes. The self-organized relaxed state due to the dissipation by the Ohm loss is shown to be formulated generally as the state such that yields the minimum dissipation rate of global auto-and/or cross-correlations between two quantities in j, B, and A for their own instantaneous values of the global correlations. (author).}
place = {Japan}
year = {1992}
month = {Aug}
}
title = {Thought analysis on self-organization theories of MHD plasma}
author = {Kondoh, Yoshiomi, and Sato, Tetsuya}
abstractNote = {A thought analysis on the self-organization theories of dissipative MHD plasma is presented to lead to three groups of theories that lead to the same relaxed state of {nabla} x B = {lambda}B, in order to find an essential physical picture embedded in the self-organization phenomena due to nonlinear and dissipative processes. The self-organized relaxed state due to the dissipation by the Ohm loss is shown to be formulated generally as the state such that yields the minimum dissipation rate of global auto-and/or cross-correlations between two quantities in j, B, and A for their own instantaneous values of the global correlations. (author).}
place = {Japan}
year = {1992}
month = {Aug}
}