Preparations for deuterium–tritium experiments on the Tokamak Fusion Test Reactor*

R J Hawryluk,R Nazikian,J Ongena,B Grek,M Caorlin,K M Young,E F Jaeger,E Mazzucato,C E Bush,G Schilling,D B Batchelor,H Hsuan,V Mastrocola,F C Jobes,L Chen,R Majeski,C Z Cheng,S S Medley,G R Hanson,K L Wong,D S Darrow,I Collazo,J Chrzanowski,V Arunasalam,M C Zarnstorff,J B Wilgen,E Lawson,G Taylor,E Fredd,H H Towner,R Persing,R Durst,H Carnevale,T Nishitani,A Von Halle,C W Barnes,R Ramakrishnan,P H Lamarche,C K Phillips,R Marsala,G A Wurden,J Kesner,A L Qualls,T S Biglow,H Adler,M Leonard,D E Mansfield,G Bateman,G Barnes,S Pitcher,V Garzotto,T O’Connor,S D Scott,T Golian,T Senko,R Rossmassler,C Gentile,B Leblanc,H Anderson,P Alling,K W Hill,L C Johnson,M Oldaker,D Loesser,S A Sabbagh,J Gioia,T Burgess,L R Grisham,M Cropper,P Snook,D Monticello,C Vannoy,M J Laughlin,H Kugel,M Osakabe,C Brunkhorst,N Fromm,M Sasao,W Blanchard,S Popovichev,G Y Fu,J Swanson,G Coward,A Janos,R Newman,B Mccormack,D A Rasmussen,R Wieland,G Ascione,L Dudek,W Stodiek,M Bitter,G Renda,S Yoshikawa,J Stevens,D K Owens,J Collins,C Ancher,W Park,R Daugert,R Scillia,B C Stratton,G Labik,M H Redi,G Gettelfinger,D R Mikkelsen,M Ulrickson,Yu I Pavlov,R C Goldfinger,R Budny,J Schivell,A Yeun,G Rewoldt,D M Meade,D Aschroft,S J Zweben,J Gilbert,P Woskov,P C Efthimion,H Park,D Mueller,J Faunce,G L Schmidt,H P Furth,M Murakami,S Raftopoulos,F M Levinton,S F Paul,E Perry,Z Chang,J R Wilson,D J Hoffman,A L Roquemore,L Zakharov,J Kamperschroer,A Nagy,S C Cowley ,J H Rogers ,R.j Fonck ,S.p Hirshman ,J.r Stencel ,J Timberlake ,J S Machuzak ,M.g Bell ,P T Bonoli ,J.e Scharer ,G Martín ,Saerom Kwon ,E D Fredrickson ,L Baylor ,Mark E Thompson ,Kathryn Wright ,Michael Mccarthy ,S.l Milora ,F W Perkins ,W M Tang ,J L Terry ,T N Stevenson ,R Hülse ,C H Skinner ,G.a Navratil ,G W Hammett ,S H Batha ,H H Duong ,R.a.p Sissingh ,K Mcguire ,M.j Gouge ,Gavin Pearson ,Joshua Levine ,James L Anderson ,D.l Jassby ,David Long ,N Bretz ,D W Roberts ,Alex Martin ,N N Gorelenkov ,М П Петров ,D R Ernst ,J C Hosea ,M D Williams ,D Mccune ,Dillon Wong ,Jon W Anderson ,Roderic Ai Camp ,W W Heidbrink ,Harry L Bush ,Matthew Marchlik ,A T Ramsey ,E Marmar ,E J Synakowski ,John A Murphy ,John Delooper ,M Beer ,M E Mauel ,M K Gaedeke Norris ,Nguyễn Thanh Lâm ,J.d Strachan ,H Hermann ,J A Snipes ,D Johnson ,Masaaki Yamada

doi:10.1063/1.870707

R J Hawryluk, R Nazikian + Show 199 more

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https://doi.org/10.1063/1.870707

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Abstract

The final hardware modifications for tritium operation have been completed for the Tokamak Fusion Test Reactor (TFTR) [Fusion Technol. 21, 1324 (1992)]. These activities include preparation of the tritium gas handling system, installation of additional neutron shielding, conversion of the toroidal field coil cooling system from water to a FluorinertTM system, modification of the vacuum system to handle tritium, preparation, and testing of the neutral beam system for tritium operation and a final deuterium–deuterium (D–D) run to simulate expected deuterium–tritium (D–T) operation. Testing of the tritium system with low concentration tritium has successfully begun. Simulation of trace and high power D–T experiments using D–D have been performed. The physics objectives of D–T operation are production of ≊10 MW of fusion power, evaluation of confinement, and heating in deuterium–tritium plasmas, evaluation of α-particle heating of electrons, and collective effects driven by alpha particles and testing of diagnostics for confined α particles. Experimental results and theoretical modeling in support of the D–T experiments are reviewed.

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