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Title: Ballooning-mode stability of shaped high-[beta] tokamaks

Journal Article · · Physical Review. E, Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics; (United States)
; ;  [1]
  1. Institute for Plasma Research, Bhat, Gandhinagar-382424 (India)
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The effect of elongation and triangularity of flux surfaces on the local and global stability of high-[ital n] ideal ballooning modes in a high-[beta] tokamak are investigated. The equilibrium surfaces are obtained by a numerical solution of the Grad-Shafranov equation using an efficient algorithm based on a generalized variational technique. A marginal stability analysis of these surfaces is carried out in which the equilibrium shift, elongation, triangularity, and their radial variations are taken into account. The influence of the cylindrical safety factor ([ital q][sub [ital c]]), as well as the variations in the shape of [beta] and [ital q] profiles, on the maximum attainable beta value ([beta][sub [ital c]]) are also considered. Detailed numerical results, over a wide range of parameter space, show that the effect of boundary elongation [kappa][sub [ital a]] is always stabilizing while the effect of boundary triangularity [delta][sub [ital a]] depends on the values of [kappa][sub [ital a]] and [ital q][sub [ital c]]. It is found that for elongated cross section ([kappa][sub [ital a]][ge]1.6), the effect of [delta][sub [ital a]] is always stabilizing. We present an alternative scaling law that effectively captures these features of the shape parameter dependences. For a JET (Joint European Torus) -type plasma, broad [beta] profiles and [ital q] profiles that tend to be flat in the interior are found to be favorable for achieving a high [beta][sub [ital c]] value.

OSTI ID:
5309018
Journal Information:
Physical Review. E, Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics; (United States), Vol. 49:2; ISSN 1063-651X
Country of Publication:
United States
Language:
English

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Related Subjects

70 PLASMA PHYSICS AND FUSION TECHNOLOGY
TOKAMAK DEVICES
BALLOONING INSTABILITY
BETA RATIO
GRAD-SHAFRANOV EQUATION
NUMERICAL ANALYSIS
SCALING LAWS
SHAPE
VARIATIONAL METHODS
CALCULATION METHODS
CLOSED PLASMA DEVICES
DIFFERENTIAL EQUATIONS
EQUATIONS
INSTABILITY
MATHEMATICS
PARTIAL DIFFERENTIAL EQUATIONS
PLASMA INSTABILITY
PLASMA MACROINSTABILITIES
THERMONUCLEAR DEVICES
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