Classical zitterbewegung in reduced plasma dynamics
Plasma Physics
2010-10-28 v1
Abstract
The process of dynamical reduction of the Vlasov-Maxwell equations leads to the introduction of classical {\it zitterbewegung} effects in reduced plasma dynamics. These effects manifest themselves in the form of an asymmetric canonical energy-momentum tensor involving the decoupling of the reduced kinetic momentum from the reduced velocity (i.e., ) as well as reduced polarization and magnetization effects. The reduced intrinsic torque generated by the antisymmetric part of the canonical energy-momentum tensor, which is calculated from the reduced ponderomotive potential, acts as the source for the intrinsic (spin) angular momentum.
Cite
@article{arxiv.1010.5710,
title = {Classical zitterbewegung in reduced plasma dynamics},
author = {Alain J. Brizard},
journal= {arXiv preprint arXiv:1010.5710},
year = {2010}
}
Comments
4 pages