D
David A Rasmussen
Researcher at Oak Ridge National Laboratory
Publications - 180
Citations - 2725
David A Rasmussen is an academic researcher from Oak Ridge National Laboratory. The author has contributed to research in topics: Plasma & Tokamak. The author has an hindex of 28, co-authored 179 publications receiving 2516 citations. Previous affiliations of David A Rasmussen include Princeton University & Battelle Memorial Institute.
Papers
More filters
Journal ArticleDOI
A lower hybrid current drive system for iter
G.T. Hoang,A. Bécoulet,J. Jacquinot,J.F. Artaud,Young-Soon Bae,B. Beaumont,J.H. Belo,Gilles Berger-By,João P. S. Bizarro,P.T. Bonoli,Moo-Hyun Cho,J. Decker,Lena Delpech,Annika Ekedahl,J. Garcia,G. Giruzzi,M. Goniche,C. Gormezano,D. Guilhem,Julien Hillairet,Frederic Imbeaux,F. Kazarian,C.E. Kessel,S.H. Kim,Jong-Gu Kwak,J.H. Jeong,J.B. Lister,X. Litaudon,R. Magne,S.L. Milora,Francesco Mirizzi,Won Namkung,Jean-Marie Noterdaeme,Si Park,R.R. Parker,Y. Peysson,David A Rasmussen,Pankaj Sharma,M. Schneider,E. J. Synakowski,A. Tanga,A. A. Tuccillo,Yuanxi Wan +42 more
TL;DR: A 20 MW/5 GHz lower hybrid current drive (LHCD) system was initially due to be commissioned and used for the second mission of ITER, i.e. the Q = 5 steady state target as discussed by the authors.
Journal ArticleDOI
Fusion power production from TFTR plasmas fueled with deuterium and tritium
J. D. Strachan,H. Adler,P. Alling,C. Ancher,H. Anderson,J.L. Anderson,D. Ashcroft,Cris W. Barnes,G. Barnes,S. H. Batha,M. G. Bell,R.E. Bell,Manfred Bitter,W. R. Blanchard,N. L. Bretz,Robert Budny,C.E. Bush,R. Camp,M. Caorlin,S. Cauffman,Z. Chang,Chio-Zong Cheng,J. Collins,G. Coward,D. S. Darrow,J. DeLooper,H.H. Duong,L. Dudek,R. Durst,P. C. Efthimion,D.R. Ernst,R. K. Fisher,R. J. Fonck,E.D. Fredrickson,N. Fromm,Guoyong Fu,Harold P. Furth,C. Gentile,N. N. Gorelenkov,B. Grek,L. R. Grisham,Gregory W. Hammett,G. R. Hanson,R. J. Hawryluk,William Heidbrink,H. W. Herrmann,K. W. Hill,J. Hosea,H. Hsuan,A.C. Janos,D. L. Jassby,F. C. Jobes,David W. Johnson,L. C. Johnson,J. H. Kamperschroer,H.W. Kugel,N. T. Lam,P. H. LaMarche,Michael Loughlin,B.P. LeBlanc,M. Leonard,Fred Levinton,J. Machuzak,D.K. Mansfield,A. Martin,E. Mazzucato,Richard Majeski,E.S. Marmar,J.M. McChesney,B. McCormack,D.C. McCune,K. M. McGuire,G. R. McKee,Dale Meade,S. S. Medley,D. R. Mikkelsen,D. Mueller,M. Murakami,A. Nagy,Raffi Nazikian,R. Newman,Takeo Nishitani,M. Norris,T. O’Connor,M. Oldaker,Masaki Osakabe,D. K. Owens,Hyeon K. Park,W. Park,S.F. Paul,G. Pearson,E. Perry,M. P. Petrov,C. K. Phillips,S. Pitcher,A. T. Ramsey,David A Rasmussen,M. H. Redi,D. W. Roberts,J. H. Rogers,R. Rossmassler,A. L. Roquemore,E. Ruskov,S.A. Sabbagh,Mamiko Sasao,G. Schilling,J.F. Schivell,G. L. Schmidt,S. D. Scott,R. Sissingh,C.H. Skinner,Joseph Snipes,J. E. Stevens,T. Stevenson,B. C. Stratton,E. J. Synakowski,William Tang,G. Taylor,J. L. Terry,M. E. Thompson,M. Tuszewski,C. Vannoy,A. von Halle,S. von Goeler,D. Voorhees,R. T. Walters,R. M. Wieland,John B Wilgen,M. Williams,James R. Wilson,K. L. Wong,G. A. Wurden,Masaaki Yamada,Kenneth M. Young,M. C. Zarnstorff,S. J. Zweben +135 more
TL;DR: The measured loss rate of energetic alpha particles agreed with the approximately 5% losses expected from alpha particles which are born on unconfined orbits.
Journal ArticleDOI
Pellet fuelling and control of burning plasmas in ITER
Larry R. Baylor,P. B. Parks,T. C. Jernigan,John Caughman,S.K. Combs,C.R. Foust,Wayne A Houlberg,S. Maruyama,David A Rasmussen +8 more
TL;DR: Pellet injection from the inner wall is planned for use in ITER as the primary core fuelling system since gas fuelling is expected to be highly inefficient in burning plasmas as discussed by the authors.
Journal ArticleDOI
Overview of the ITER EC H&CD system and its capabilities
T. Omori,M. A. Henderson,Ferran Albajar,Stefano Alberti,U. Baruah,T.S. Bigelow,B. Beckett,R. Bertizzolo,Tullio Bonicelli,Alessandro Bruschi,John Caughman,René Chavan,S. Cirant,A. Collazos,D. Cox,C. Darbos,M. de Baar,Gregory G. Denisov,Daniela Farina,Franco Gandini,T. Gassmann,Timothy Goodman,R. Heidinger,Jean-Philippe Hogge,Stefan Illy,O. Jean,Jianbo Jin,Ken Kajiwara,W. Kasparek,Atsushi Kasugai,Stefan Kern,N. Kobayashi,H. Kumric,J.-D. Landis,A. Moro,C. Nazare,Yasuhisa Oda,Ioannis Gr. Pagonakis,Bernhard Piosczyk,P. Platania,Burkhard Plaum,Emanuele Poli,L. Porte,D. Purohit,G. Ramponi,S. L. Rao,David A Rasmussen,Dennis Ronden,Tomasz Rzesnicki,G. Saibene,Keishi Sakamoto,F. Sanchez,T.A. Scherer,Michael A. Shapiro,Carlo Sozzi,Peter Spaeh,Dirk Strauss,Olivier Sauter,Koji Takahashi,Richard J. Temkin,Manfred Thumm,Minh Quang Tran,Victor Udintsev,H. Zohm +63 more
TL;DR: The Electron Cyclotron (EC) system for the ITER tokamak is designed to inject >= 20 MW RF power into the plasma for Heating and Current Drive (HC) applications.
Journal ArticleDOI
Review of deuterium-tritium results from the Tokamak Fusion Test Reactor
K. M. McGuire,H. Adler,P. Alling,C. Ancher,H. Anderson,H. Anderson,J. L. Anderson,J. W. Anderson,V. Arunasalam,G. Ascione,D. Ashcroft,Cris W. Barnes,Cris W. Barnes,G. Barnes,S. H. Batha,Glenn Bateman,Michael A. Beer,M.G. Bell,R. E. Bell,Manfred Bitter,W. Blanchard,N. L. Bretz,C. Brunkhorst,Robert Budny,C. E. Bush,R. Camp,M. Caorlin,H. Carnevale,S. Cauffman,Z. Chang,Z. Chang,Choong-Seock 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,William Dorland,William Dorland,L. Dudek,H.H. Duong,H.H. Duong,R. Durst,R. Durst,P. C. Efthimion,Darin Ernst,Darin Ernst,H. Evenson,H. Evenson,Nathaniel J. Fisch,R. Fisher,R. Fisher,R. J. Fonck,R. J. Fonck,E. Fredd,E.D. Fredrickson,N. Fromm,Guoyong Fu,T. Fujita,T. Fujita,Harold P. Furth,V. Garzotto,C. Gentile,J. Gilbert,J. Gioia,Nikolai Gorelenkov,B. Grek,Larry R. Grisham,Gregory W. Hammett,Gregory R. Hanson,Gregory R. Hanson,R. J. Hawryluk,W. W. Heidbrink,H. W. Herrmann,K. W. Hill,J. C. Hosea,H. Hsuan,M. Hughes,M. Hughes,R. A. Hulse,A. Janos,D. L. Jassby,F. C. Jobes,David Johnson,L. C. Johnson,M. Kalish,J. Kamperschroer,Jay Kesner,Jay Kesner,H.W. Kugel,G. Labik,N. T. Lam,N. T. Lam,P. H. LaMarche,E. Lawson,B.P. LeBlanc,J. Levine,F. M. Levinton,D. Loesser,D. Long,Michael Loughlin,J. Machuzak,J. Machuzak,Richard Majeski,D.K. Mansfield,Earl Marmar,Earl Marmar,R. Marsala,A. Martin,G. Martin,E. Mazzucato,Michael E. Mauel,Michael E. Mauel,M. McCarthy,J. McChesney,J. McChesney,B. McCormack,D.C. McCune,George McKee,George McKee,Dale Meade,S. S. Medley,D. R. Mikkelsen,S. V. Mirnov,D. Mueller,M. Murakami,M. Murakami,J. A. Murphy,A. Nagy,Gerald Navratil,Gerald Navratil,Raffi Nazikian,R. Newman,M. Norris,T. O’Connor,M. Oldaker,J. Ongena,J. Ongena,M. Osakabe,D.K. Owens,Hyeon K. Park,W. Park,P. B. Parks,P. B. Parks,S. F. Paul,G. Pearson,E. Perry,R. Persing,M. P. Petrov,C. K. Phillips,M. Phillips,M. Phillips,S. Pitcher,R. Pysher,A. L. Qualls,A. L. Qualls,S. Raftopoulos,S. Ramakrishnan,A. T. Ramsey,David A Rasmussen,David A Rasmussen,M. H. Redi,G. Renda,G Rewoldt,D. Roberts,D. Roberts,J. H. Rogers,R. Rossmassler,A. L. Roquemore,E. Ruskov,E. Ruskov,S.A. Sabbagh,S.A. Sabbagh,M. Sasao,G. Schilling,J. Schivell,G. L. Schmidt,R. Scillia,S. D. Scott,I. Semenov,T. Senko,S. Sesnic,R. Sissingh,C.H. Skinner,J.A. Snipes,J.A. Snipes,J. Stencel,J. Stevens,T. Stevenson,B. C. Stratton,J. D. Strachan,W. Stodiek,J. Swanson,E. J. Synakowski,H. Takahashi,William Tang,G. Taylor,J.L. Terry,J.L. Terry,M. E. Thompson,W. Tighe,J. R. Timberlake,Kenji Tobita,Kenji Tobita,H. H. Towner,M. Tuszewski,M. Tuszewski,A. von Halle,C. Vannoy,M. Viola,S. von Goeler,D. Voorhees,R. T. Walters,R. Wester,Roscoe White,R. Wieland,John B Wilgen,John B Wilgen,M. Williams,James R. Wilson,J. Winston,K. Wright,K. L. Wong,Paul Woskov,Paul Woskov,G. A. Wurden,G. A. Wurden,Masaaki Yamada,S. Yoshikawa,K. M. Young,M. C. Zarnstorff,V. Zavereev,V. Zavereev,Stewart Zweben +238 more
TL;DR: The first magnetic fusion experiments to study plasmas using nearly equal concentrations of deuterium and tritium have been carried out on the Tokamak Fusion Test Reactor (TFTR).