Review of deuterium--tritium results from the Tokamak Fusion Test Reactor*

K. M. McGuire,H. Adler,P. Alling,C. Ancher,H. Anderson,J.L. Anderson,J. W. Anderson,V. Arunasalam,G. Ascione,D. Ashcroft,Cris W. Barnes,G. Barnes,S. Batha,Glenn Bateman,Michael Beer,M.G. Bell,R. Bell,M. Bitter,W.R. Blanchard,N. L. Bretz,C. Brunkhorst,R.V. Budny,C.E. Bush,R. Camp,M. Caorlin,H. Carnevale,S. Cauffman,Z. Chang,Choong Seock Chang,Chio-Zong Cheng,J. Chrzanowski,J. Collins,G. Coward,M. Cropper,D. S. Darrow,R. Daugert,J. DeLooper,R. O. Dendy,W. Dorland,L. Dudek,H. Duong,R. Durst,Philip C. Efthimion,D. R. Ernst,H. Evenson,Nathaniel J. Fisch,R. Fisher,R.J. Fonck,E. Fredd,Eric Fredrickson,N. Fromm,Guoyong Fu,T. Fujita,Harold P. Furth,V. Garzotto,C. Gentile,J. Gilbert,J. Gioia,N. N. Gorelenkov,B. Grek,L.R. Grisham,G. W. Hammett,G.R. Hanson,R.J. Hawryluk,W.W. Heidbrink,H. W. Herrmann,K. W. Hill,J. Hosea,H. Hsuan,M. Hughes,R. A. Hulse,A. Janos,D.L. Jassby,F. C. Jobes,David W. Johnson,L. C. Johnson,M. Kalish,J. Kamperschroer,J. Kesner,H.W. Kugel,G. Labik,N.T. Lam,P. H. LaMarche,E. Lawson,B. LeBlanc,J. Levine,F. M. Levinton,D. Loesser,D. Long,M. J. Loughlin,J. Machuzak,Richard Majeski,D. K. Mansfield,E.S. Marmar,R. Marsala,A. Martin,G. Martin,E. Mazzucato,M.E. Mauel,M. McCarthy,J. M. McChesney,B. McCormack,D.C McCune,G. McKee,D. M. Meade,S.S. Medley,D. R. Mikkelsen,S. V. Mirnov,Dennis Mueller,M. Murakami,J. A. Murphy,A. Nagy,G.A. Navratil,R. Nazikian,R. Newman,M. Norris,T.E. O'Connor,M. Oldaker,J. Ongena,M. Osakabe,D.K. Owens,H.K. Park,W. Park,P.B. Parks,S. F. Paul,G. Pearson,E. Perry,R. Persing,M. P. Petrov,C.K. Phillips,M. Phillips,S. Pitcher,R. Pysher,A L Qualls,S. Raftopoulos,S. Ramakrishnan,A.T. Ramsey,D.A. Rasmussen,M.H Redi,G. Renda,G. Rewoldt,D. R. Roberts,J.H. Rogers,R. Rossmassler,A.L. Roquemore,E. Ruskov,S.A. Sabbagh,M. Sasao,G. Schilling,J.F. Schivell,G.L. Schmidt,R. Scillia,S.D. Scott,I. Semenov,T. Senko,S. Sesnic,R. Sissingh,C. H. Skinner,J. Snipes,J. Stencel,J. E. Stevens,T.N. Stevenson,Brentley Stratton,J. D. Strachan,W. Stodiek,J. Swanson,E. J. Synakowski,H. Takahashi,W. Tang,George W. Taylor,J. L. Terry,M. E. Thompson,W. Tighe,J. R. Timberlake,K. Tobita,H.H. Towner,M. Tuszewski,A. von Halle,C. Vannoy,M. Viola,S. von Goeler,D. Voorhees,R. T. Walters,R. Wester,Roscoe White,R.M. Wieland,J.B. Wilgen,M. Williams,J. R. Wilson,J. Winston,K. Wright,K. L. Wong,P. Woskov,G. A. Wurden,Masaaki Yamada,S. Yoshikawa,K.M. Young,M.C. Zarnstorff,V. Zavereev,S.J. Zweben

Review of deuterium--tritium results from the Tokamak Fusion Test Reactor*

1995

After many years of fusion research, the conditions needed for a D–T fusion reactor have been approached on the Tokamak Fusion Test Reactor (TFTR) [Fusion Technol. 21, 1324 (1992)]. For the first time the unique phenomena present in a D–T plasma are now being studied in a laboratory plasma.The first magnetic fusion experiments to study plasmas using nearly equal concentrations of deuterium and tritium have been carried out on TFTR. At present the maximum fusion power of 10.7 MW, using 39.5 MW of neutral‐beam heating, in a supershot discharge and 6.7 MW in a high‐βp discharge following a current rampdown. The fusion power density in a core of the plasma is ≊2.8 MW m−3, exceeding that expected in the International Thermonuclear Experimental Reactor (ITER) [Plasma Physics and Controlled Nuclear Fusion Research (International Atomic Energy Agency, Vienna, 1991), Vol. 3, p. 239] at 1500 MW total fusion power. The energy confinement time, τE, is observed to increase in D–T, relative to D plasmas, by 20% and the...

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