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A simple ideal magnetohydrodynamical model of vertical disruption events in tokamaks

Phys. Plasmas 16, 012506 (2009); doi:10.1063/1.3068467

Published 27 January 2009

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R. Fitzpatrick
Institute for Fusion Studies, Department of Physics, University of Texas at Austin, Austin, Texas 78712, USA
A simple model of axisymmetric vertical disruption events (VDEs) in tokamaks is presented in which the halo current force exerted on the vacuum vessel is calculated directly from linear, marginally stable, ideal-magnetohydrodynamical (MHD) stability analysis. The basic premise of the model is that the halo current force modifies pressure balance at the edge of the plasma, and therefore also modifies ideal-MHD plasma stability. In order to prevent the ideal vertical instability, responsible for the VDE, from growing on the very short Alfvén time scale, the halo current force must adjust itself such that the instability is rendered marginally stable. The model predicts halo currents which are similar in magnitude to those observed experimentally. An approximate nonaxisymmetric version of the model is developed in order to calculate the toroidal peaking factor for the halo current force. ©2009 American Institute of Physics
History: Received 7 August 2008; accepted 18 December 2008; published 27 January 2009
Permalink: http://link.aip.org/link/?PHPAEN/16/012506/1
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KEYWORDS and PACS

Keywords
PACS
  • 52.35.Py
    Plasma macroinstabilities (hydromagnetic)
  • 52.30.Cv
    Plasma magnetohydrodynamics
  • 52.55.Tn
    Ideal and resistive plasma MHD modes; kinetic modes
  • 52.55.Fa
    Tokamaks
  • 52.40.Hf
    Plasma-material interactions; boundary layer effects
  • YEAR: 2009

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ISSN:
1070-664X (print)   1089-7674 (online)
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