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Kugel, H.W.; Maingi, R.; Bell, M.; Blanchard, W.; Gates, D.; Johnson, D.; Kaita, R.; Kaye, S.; Marqueda, R.; Menard, J.; Mueller, D.; Ono, M.; Peng, Y-K.M.; Raman, R.; Ramsey, A.; Roquemore, A.; Skinner, C.; Sabbagh, S.; Stutman, D.; Wampler, William R.; Wilson, J.R.; Zweben, S.
Sandia National Labs., Albuquerque, NM (United States); Sandia National Labs., Livermore, CA (United States). Funding organisation: US Department of Energy (United States)2000
Sandia National Labs., Albuquerque, NM (United States); Sandia National Labs., Livermore, CA (United States). Funding organisation: US Department of Energy (United States)2000
AbstractAbstract
[en] The National Spherical Torus Experiment (NSTX) started plasma operations in February 1999, and promptly achieved high current, inner wall limited, double null, and single null plasma discharges, initial Coaxial Helicity Injection, and High Harmonic Fast Wave results. NSTX is designed to study the physics of Spherical Tori (ST) in a device that can produce non-inductively sustained high-β discharges in the 1 MA regime and to explore approaches toward a small, economical high power density ST reactor core. As expected, discharge reproducibility and performance were strongly affected by wall conditions. In this paper, the authors describe the internal geometry, and initial plasma discharge, impurity control, wall conditioning, erosion, and deposition results
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25 May 2000; 24 p; 14. International Conference on Plasma Surface Interactions in Controlled Fusion Devices; Rosenheim (Germany); 22-27 May 2000; AC04-94AL85000; Also available from OSTI as DE00756168; PURL: https://www.osti.gov/servlets/purl/756168-LT3fiI/webviewable/
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