Journal
PLASMA SCIENCE & TECHNOLOGY
Volume 25, Issue 7, Pages -Publisher
IOP Publishing Ltd
DOI: 10.1088/2058-6272/acb9d7
Keywords
perturbed Lagrangian; drift kinetic; low-frequency nonideal MHD; fusion plasma
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We found that the previously derived perturbed Lagrangian from the drift-kinetic equation was inconsistent with the ordering for the low-frequency large-scale MHD. In this study, we rederived the expression for the perturbed Lagrangian using the ordering system for the low-frequency large-scale MHD in a low-beta plasma within the framework of nonideal MHD. This finding is significant as the perturbed Lagrangian is widely used to understand the kinetic driving and dissipative mechanisms of MHD instabilities and plasma response in fusion plasmas.
We find that the perturbed Lagrangian derived from the drift-kinetic equation in [Porcelli F et al 1994 Phys. Plasmas 1 470] is inconsistent with the ordering for the low-frequency large-scale magnetohydrodynamic (MHD). Here, we rederive the expression for the perturbed Lagrangian within the framework of nonideal MHD using the ordering system for the low-frequency large-scale MHD in a low-beta plasma. The obtained perturbed Lagrangian is consistent with Chen's gyrokinetic theory [Chen L and Zonca F 2016 Rev. Mod. Phys. 88 015008], where the terms related to the field curvature and gradient are small quantities of higher order and thus negligible. As the perturbed Lagrangian has been widely used in the literature to calculate the plasma nonadiabatic response in low-frequency MHD applications, this finding may have a significant impact on the understanding of the kinetic driving and dissipative mechanisms of MHD instabilities and the plasma response to electromagnetic perturbations in fusion plasmas.
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