Comparisons of linear and nonlinear plasma response models for non-axisymmetric perturbations

With the installation of non-axisymmetric coil systems on major tokamaks for the purpose of studying the prospects of ELM-free operation, understanding the plasma response to the applied fields is a crucial issue. Application of different response models, using standard tools, to DIII-D discharges w...

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Bibliographic Details
Published in:Physics of plasmas 2013-05, Vol.20 (5)
Main Authors: Turnbull, A. D., Ferraro, N. M., Izzo, V. A., Lazarus, E. A., Park, J.-K., Cooper, W. A., Hirshman, S. P., Lao, L. L., Lanctot, M. J., Lazerson, S., Liu, Y. Q., Reiman, A., Turco, F.
Format: Article
Language:English
Subjects:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
AXIAL SYMMETRY
Coiling
COMPARATIVE EVALUATIONS
Criteria
DAMPING
DISTURBANCES
DOUBLET-3 DEVICE
Dynamical systems
EDGE LOCALIZED MODES
ELECTRIC DISCHARGES
HELICITY
MAGNETIC FIELDS
MAGNETIC SURFACES
MAGNETOHYDRODYNAMICS
NONLINEAR PROBLEMS
Nonlinearity
Perturbation methods
PLASMA
Plasma (physics)
PLASMA CONFINEMENT
PLASMA SIMULATION
STEADY-STATE CONDITIONS
Three dimensional
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Summary:With the installation of non-axisymmetric coil systems on major tokamaks for the purpose of studying the prospects of ELM-free operation, understanding the plasma response to the applied fields is a crucial issue. Application of different response models, using standard tools, to DIII-D discharges with applied non-axisymmetric fields from internal coils, is shown to yield qualitatively different results. The plasma response can be treated as an initial value problem, following the system dynamically from an initial unperturbed state, or from a nearby perturbed equilibrium approach, and using both linear and nonlinear models [A. D. Turnbull, Nucl. Fusion 52, 054016 (2012)]. Criteria are discussed under which each of the approaches can yield a valid response. In the DIII-D cases studied, these criteria show a breakdown in the linear theory despite the small 10−3 relative magnitude of the applied magnetic field perturbations in this case. For nonlinear dynamical evolution simulations to reach a saturated nonlinear steady state, appropriate damping mechanisms need to be provided for each normal mode comprising the response. Other issues arise in the technical construction of perturbed flux surfaces from a displacement and from the presence of near nullspace normal modes. For the nearby equilibrium approach, in the absence of a full 3D equilibrium reconstruction with a controlled comparison, constraints relating the 2D system profiles to the final profiles in the 3D system also need to be imposed to assure accessibility. The magnetic helicity profile has been proposed as an appropriate input to a 3D equilibrium calculation and tests of this show the anticipated qualitative behavior.
ISSN:1070-664X
1089-7674
DOI:10.1063/1.4805087