Confinement of high-density pellet-fueled discharges in TFTR
1986; IOP Publishing; Volume: 28; Issue: 9A Linguagem: Inglês
10.1088/0741-3335/28/9a/020
ISSN1361-6587
AutoresS. L. Milora, G. Schmidt, V. Arunasalam, Michael G.H. Bell, M. Bitter, C. E. Bush, S. K. Combs, P. C. Efthimion, A.C. England, E. Fredrickson, R.J. Goldston, B. Grek, L. Grisham, R J Hawyrluk, W. W. Heidbrink, H. W. Hendel, K. W. Hill, D. Johnson, L. C. Johnson, P. H. LaMarche, R. Little, D. K. Mansfield, D. McCune, K. McGuire, D. M. Meade, D. Mueller, E. B. Nieschmidt, D.K. Owens, H. Park, A.T. Ramsey, J. Schivell, S. Šesnić, F Stauffner, B L Stratton, G. Taylor, H.H. Towner, R. Wieland, J. B. Wilgen, M. C. Zarnstorff,
Tópico(s)Particle accelerators and beam dynamics
ResumoTFTR pellet injection results reported by Schmidt (1985) have been extended to higher density and n tau in plasmas limited by a graphite inner-wall belt limiter. Increased pellet penetration and larger density increases were achieved by operation at reduced plasma current (1.6 MA) and minor and major radius (70 cm and 235 cm). Under these conditions, beam heating results have been extended to 7 MW.
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