Recent D-T results on TFTR

D. W. Johnson, V. Arunasalam, C. W. Barnes, S. H. Batha, G. Bateman, M. Beer, M. G. Bell, R. Bell, M. Bitter, N. L. Bretz, R. Budny, C. E. Bush, S. Cauffman, C. S. Chang, Z. Chang, C. Z. Cheng, D. S. Darrow, R. Dendy, W. Dorland, H. H. DuongR. Durst, P. C. Efthimion, D. Ernst, H. Evenson, N. Fisch, R. Fisher, R. J. Fonck, E. Fredrickson, G. Y. Fu, T. Fujita, H. P. Furth, N. Gorelenkov, B. Grek, L. R. Grisham, G. Hammett, R. J. Hawryluk, W. Heidbrink, H. W. Herrmann, K. W. Hill, J. Hosea, H. Hsuan, M. Hughes, A. Janos, D. L. Jassby, F. C. Jobes, L. C. Johnson, J. Kamperschroer, J. Kesner, M. Kotschenreuther, H. Kugel, P. H. Lamarche, B. Leblanc, F. M. Levinton, J. MacHuzak, R. Majeski, D. K. Mansfield, E. S. Marmar, E. Mazzucato, M. Mauel, J. McChesney, K. M. McGuire, G. McKee, D. M. Meade, S. S. Medley, D. R. Mikkelsen, S. V. Mirnov, D. Mueller, R. Nazikian, M. Osakabe, D. K. Owens, H. Park, W. Park, P. Parks, S. F. Paul, M. Petrov, C. K. Phillips, M. Phillips, A. L. Qualls, A. Ramsey, M. H. Redi, G. Rewoldt, D. Roberts, J. Rogers, A. L. Roquemore, E. Ruskov, S. A. Sabbagh, M. Sasao, G. Schilling, J. Schivell, G. L. Schmidt, S. D. Scott, I. Semenov, S. Sesnic, C. H. Skinner, D. Spong, B. C. Stratton, J. D. Strachan, W. Stodiek, E. Synakowski, H. Takahashi, W. Tang, G. Taylor, J. Terry, W. Tighe, J. R. Timberlake, A. Von Halle, S. Von Goeler, R. White, J. R. Wilson, K. L. Wong, G. A. Wurden, K. M. Young, M. C. Zarnstorff, S. J. Zweben

研究成果: Article

19 引文 斯高帕斯(Scopus)

摘要

Routine tritium operation in TFTR has permitted investigations of alpha particle physics in parameter ranges resembling those of a reactor core. ICRF wave physics in a DT plasma and the influence of isotopic mass on supershot confinement have also been studied. Continued progress has been made in optimizing fusion power production in TFTR, using extended machine capability and Li wall conditioning. Performance is currently limited by MHD stability. A new reversed magnetic shear regime is being investigated with reduced core transport and a higher predicted stability limit.

原文English
文章編號005
頁(從 - 到)A69-A85
期刊Plasma Physics and Controlled Fusion
37
發行號11A
DOIs
出版狀態Published - 1995

All Science Journal Classification (ASJC) codes

  • Nuclear Energy and Engineering
  • Condensed Matter Physics

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    Johnson, D. W., Arunasalam, V., Barnes, C. W., Batha, S. H., Bateman, G., Beer, M., Bell, M. G., Bell, R., Bitter, M., Bretz, N. L., Budny, R., Bush, C. E., Cauffman, S., Chang, C. S., Chang, Z., Cheng, C. Z., Darrow, D. S., Dendy, R., Dorland, W., ... Zweben, S. J. (1995). Recent D-T results on TFTR. Plasma Physics and Controlled Fusion, 37(11A), A69-A85. [005]. https://doi.org/10.1088/0741-3335/37/11A/005