Generalised ballooning theory of two-dimensional tokamak modes

P. A. Abdoul, D. Dickinson, C. M. Roach, H. R. Wilson

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3 Scopus citations

Abstract

In this work, using solutions from a local gyrokinetic flux-tube code combined with higher order ballooning theory, a new analytical approach is developed to reconstruct the global linear mode structure with associated global mode frequency. In addition to the isolated mode (IM), which usually peaks on the outboard mid-plane, the higher order ballooning theory has also captured other types of less unstable global modes: (a) the weakly asymmetric ballooning theory (WABT) predicts a mixed mode (MM) that undergoes a small poloidal shift away from the outboard mid-plane, (b) a relatively more stable general mode (GM) balloons on the top (or bottom) of the tokamak plasma. In this paper, an analytic approach is developed to combine these disconnected analytical limits into a single generalised ballooning theory. This is used to investigate how an IM behaves under the effect of sheared toroidal flow. For small values of flow an IM initially converts into a MM where the results of WABT are recaptured, and eventually, as the flow increases, the mode asymptotically becomes a GM on the top (or bottom) of the plasma. This may be an ingredient in models for understanding why in some experimental scenarios, instead of large edge localised modes (ELMs), small ELMs are observed. Finally, our theory can have other important consequences, especially for calculations involving Reynolds stress driven intrinsic rotation through the radial asymmetry in the global mode structures. Understanding the intrinsic rotation is significant because external torque in a plasma the size of ITER is expected to be relatively low.

Original languageEnglish
Article number025011
JournalPlasma Physics and Controlled Fusion
Volume60
Issue number2
DOIs
StatePublished - Feb 2018
Externally publishedYes

Funding

P A Abdoul appreciate the financial support by the Ministry of Higher Education in Kurdistan region of Iraq. This work has been (part-) funded by the RCUK Energy Programme [grant number EP/P012450/1]. The authors acknowledge helpful discussions with J W Connor.

FundersFunder number
Ministry of Higher Education in Kurdistan region of Iraq
RCUK Energy ProgrammeEP/P012450/1

    Keywords

    • generalised ballooning theory
    • local and global gyrokinetic codes
    • radial symmetry breaking

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