Abstract
By relating to the guiding-center drift equation, effective forces are introduced into the linearized Vlavov equation, which leads to modification in the standard kinetic solution for uniformly magnetized plasmas. In the newly-proposed formalism, all the convective (drift) currents induced by E x B{sub 0}, nabla B and (n{center_dot}nabla)n are properly formulated. (author). 4 refs.
Citation Formats
Chen, C Y.
Modification in the kinetic solution for magnetized plasmas.
IAEA: N. p.,
1992.
Web.
Chen, C Y.
Modification in the kinetic solution for magnetized plasmas.
IAEA.
Chen, C Y.
1992.
"Modification in the kinetic solution for magnetized plasmas."
IAEA.
@misc{etde_10119871,
title = {Modification in the kinetic solution for magnetized plasmas}
author = {Chen, C Y}
abstractNote = {By relating to the guiding-center drift equation, effective forces are introduced into the linearized Vlavov equation, which leads to modification in the standard kinetic solution for uniformly magnetized plasmas. In the newly-proposed formalism, all the convective (drift) currents induced by E x B{sub 0}, nabla B and (n{center_dot}nabla)n are properly formulated. (author). 4 refs.}
place = {IAEA}
year = {1992}
month = {Sep}
}
title = {Modification in the kinetic solution for magnetized plasmas}
author = {Chen, C Y}
abstractNote = {By relating to the guiding-center drift equation, effective forces are introduced into the linearized Vlavov equation, which leads to modification in the standard kinetic solution for uniformly magnetized plasmas. In the newly-proposed formalism, all the convective (drift) currents induced by E x B{sub 0}, nabla B and (n{center_dot}nabla)n are properly formulated. (author). 4 refs.}
place = {IAEA}
year = {1992}
month = {Sep}
}