4.3 Article

Impact of magnetic ripple on neoclassical equilibrium in gyrokinetic simulations

Journal

PLASMA PHYSICS AND CONTROLLED FUSION
Volume 65, Issue 3, Pages -

Publisher

IOP Publishing Ltd
DOI: 10.1088/1361-6587/acb79a

Keywords

neoclassical transport; stochastic transport; plasma flow; full-f gyrokinetic simulations

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The effect of magnetic field ripple on turbulence-free tokamak plasma is studied numerically and analytically, including neoclassical processes and stochastic transport. The implementation of magnetic field ripple perturbation in GYSELA code is verified and benchmarked against NEO code and a reduced model. It is observed that the thermal drive of the mean poloidal velocity decreases sharply for large and experimentally relevant magnetic ripple amplitudes, and may even change sign.
The effect of magnetic field ripple on tokamak plasma without turbulence is studied numerically and augmented with a reduced analytical model that includes neoclassical processes in the presence of non-axisymmetric perturbation and stochastic transport. For this study, a magnetic field ripple perturbation has been implemented in the GYSELA gyrokinetic code. This implementation has been verified thanks to a test of toroidal angular momentum conservation. The GYSELA code was then successfully benchmarked against the NEO code, which solves the drift kinetic equation, and against the reduced model in the collisionality range nu(?) is an element of [0.05-0.5] for several amplitudes of the magnetic ripple. An observation, shared by the model, the NEO code and GYSELA simulations is that the thermal drive of the mean poloidal velocity-measured by the k(VP) coefficient-decreases sharply for large yet experimentally relevant magnetic ripple amplitudes, and may even change sign.

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