Abstract
We upgrade the three-dimensional linear stability CASTOR3D code by taking into account gyro-viscosity in the momentum equation, as well as pressure and Hall terms in Ohm's law. Making use of the drift approximation, the resulting simplified version of Ohm's law is implemented. The ion and electron diamagnetic drift effects described by these newly implemented terms are investigated for ideal and resistive, low- and medium-
$n$
internal modes depending on the ratio of ion and electron pressures, and plasma resistivity. Stability studies are performed for two- and three-dimensional test equilibria. The results confirm previous findings, and provide new insights especially in the case of the three-dimensional equilibrium (e.g. reduction of the coupling of toroidal harmonics).
Publisher
Cambridge University Press (CUP)
Reference24 articles.
1. Braginskii, S.I. 1965 Transport processes in a plasma. In Reviews of Plasma Physics (ed. M.A. Leontovich), vol. 1, p. 205. Consultants Bureau.
2. Establishment of magnetic coordinates for a given magnetic field
3. Numerical modeling of linear drift-tearing mode stability
4. Methods for the efficient calclation of the (MHD) magnetohydrodynamic stability properties of magnetically confined fusion plasmas;Anderson;Intl J. Supercomput. Appl,1990
5. Effect of toroidal plasma flow and flow shear on global magnetohydrodynamic MHD modes