Open AccessTokamak Simulation Code modeling of NSTX
Author(s) -
S.C. Jardin,
S. Kaye,
J. Menard,
C. Kessel,
A. Glasser
Publication year - 2000
Language(s) - English
Resource type - Reports
DOI - 10.2172/758640
Subject(s) - tokamak , plasma , toroid , physics , ballooning , torus , electromagnetic coil , nuclear engineering , rotational symmetry , mechanics , computational physics , stability (learning theory) , code (set theory) , nuclear physics , computer science , engineering , set (abstract data type) , programming language , geometry , mathematics , quantum mechanics , machine learning
The Tokamak Simulation Code [TSC] is widely used for the design of new axisymmetric toroidal experiments. In particular, TSC was used extensively in the design of the National Spherical Torus eXperiment [NSTX]. The authors have now benchmarked TSC with initial NSTX results and find excellent agreement for plasma and vessel currents and magnetic flux loops when the experimental coil currents are used in the simulations. TSC has also been coupled with a ballooning stability code and with DCON to provide stability predictions for NSTX operation. TSC has also been used to model initial CHI experiments where a large poloidal voltage is applied to the NSTX vacuum vessel, causing a force-free current to appear in the plasma. This is a phenomenon that is similar to the plasma halo current that sometimes develops during a plasma disruption
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