Journal
PLASMA PHYSICS AND CONTROLLED FUSION
Volume 65, Issue 1, Pages -Publisher
IOP Publishing Ltd
DOI: 10.1088/1361-6587/aca4f4
Keywords
nonlinear; tearing mode; toroidal rotation
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This study investigates the nonlinear evolution of the tearing mode instability with toroidal rotation using a three-dimensional toroidal geometry magnetohydrodynamic code. It is found that toroidal rotation significantly stabilizes the magnetic island, regardless of the direction. The stabilizing effect of toroidal rotation is stronger in the nonlinear phase compared to the linear phase.
The nonlinear evolution of the tearing mode instability with toroidal rotation is investigated using a three-dimensional toroidal geometry magnetohydrodynamic code (M3D). It is found that toroidal rotation plays a significantly stable role in reducing the width of magnetic island, which is independent of the direction of toroidal rotation. Compared with the stabilizing effect in the linear phase, the stabilizing effect of toroidal rotation is much stronger in the nonlinear phase. The magnetic island is almost suppressed by large enough rotation, even though the linear growth rate is weakly reduced in the linear phase. It is observed that the flow shear has a stabilizing effect, which is significant when the rotation frequency is large. However, it is shown that the magnitude of rotation plays a dominant role in stabilizing the magnetic island when the rotation frequency is small. The Coriolis force, rather than the centrifugal force, is found to play a dominant role in stabilizing the tearing mode in the nonlinear phase. When m/n=3/2 m/n=2/1
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