R
R. J. Hawryluk
Researcher at Princeton University
Publications - 62
Citations - 3852
R. J. Hawryluk is an academic researcher from Princeton University. The author has contributed to research in topics: Tokamak & Plasma. The author has an hindex of 31, co-authored 62 publications receiving 3709 citations. Previous affiliations of R. J. Hawryluk include United States Department of Energy & Princeton Plasma Physics Laboratory.
Papers
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Journal ArticleDOI
New techniques for calculating heat and particle source rates due to neutral beam injection in axisymmetric tokamaks
TL;DR: In this paper, a set of numerical techniques for calculating heat and particle source rates due to neutral beam injection in axisymmetric tokamaks is described, taking into account a number of significant, and normally neglected, effects.
Journal ArticleDOI
Study of high-beta magnetohydrodynamic modes and fast-ion losses in PDX
K. McGuire,Robert James Goldston,M. G. Bell,Manfred Bitter,K. Bol,K. Brau,D. Buchenauer,T. Crowley,Scott Davis,F. Dylla,H.P. Eubank,H. Fishman,R. J. Fonck,B. Grek,R.C. Grimm,R. J. Hawryluk,H. Hsuan,R. A. Hulse,R. Izzo,R. Kaita,Stanley Kaye,H.W. Kugel,David W. Johnson,J. Manickam,Dennis M. Manos,D. K. Mansfield,E. Mazzucato,R. T. McCann,D. C. McCune,D. A. Monticello,R. W. Motley,D. Mueller,K. Oasa,K. Oasa,M. Okabayashi,K. Owens,W. Park,M. Reusch,N. R. Sauthoff,G. L. Schmidt,S. Sesnic,J. D. Strachan,Clifford M Surko,Clifford M Surko,R. Slusher,R. Slusher,H. Takahashi,F. Tenney,P. Thomas,H. H. Towner,J. Valley,J. Valley,Roscoe White +52 more
TL;DR: In this paper, strong magnetohydrodynamic activity has been observed in PDX neutral-beam-heated discharges and is associated with a significant loss of fast ions and a drop in neutron emission.
Book ChapterDOI
An Empirical Approach to Tokamak Transport
TL;DR: In this paper, an overview of the important considerations related to particle and energy transport in a tokamak is presented, where the experimental data is analyzed in terms of the one dimensional magnetic field diffusion equation and the particle energy conservation equations.
Journal ArticleDOI
Principal Physics Developments Evaluated in the ITER Design Review
R. J. Hawryluk,David Campbell,G. Janeschitz,P. R. Thomas,Raffaele Albanese,Roberto Ambrosino,Christian Bachmann,Larry R. Baylor,M. Becoulet,I. Benfatto,J.M. Bialek,Allen H. Boozer,A. Brooks,Robert Budny,T.A. Casper,M. Cavinato,J. J. Cordier,V. Chuyanov,E. J. Doyle,Todd Evans,G. Federici,M.E. Fenstermacher,H. Fujieda,K. Gál,Am Garofalo,L. Garzotti,D.A. Gates,Y. Gribov,P. Heitzenroeder,T. C. Hender,N. Holtkamp,David Humphreys,Ian H. Hutchinson,K. Ioki,J. Johner,G. Johnson,Yutaka Kamada,A. Kavin,C.E. Kessel,R. R. Khayrutdinov,G. J. Kramer,A. Kukushkin,K. Lackner,I.S. Landman,Peter Lang,Yunfeng Liang,Jochen Linke,Bruce Lipschultz,A. Loarte,G. D. Loesser,C. Lowry,T.C. Luce,V.E. Lukash,S. Maruyama,Massimiliano Mattei,Jonathan Menard,Mario Merola,A. Mineev,Neil Mitchell,Eric Nardon,Raffi Nazikian,B.E. Nelson,C. Neumeyer,Jong-Kyu Park,R. Pearce,R.A. Pitts,A. R. Polevoi,Alfredo Portone,M. Okabayashi,P.H. Rebut,V. Riccardo,J. Roth,S.A. Sabbagh,G. Saibene,G. Sannazzaro,M.J. Schaffer,Michiya Shimada,Abhijit Sen,A. C. C. Sips,C.H. Skinner,P. B. Snyder,R.D. Stambaugh,E. J. Strait,M. Sugihara,E. Tsitrone,J. Urano,M. Valovic,M. R. Wade,J.C. Wesley,Roscoe White,D.G. Whyte,S. Wu,M. Wykes,Leonid E. Zakharov +93 more
TL;DR: In this article, the ITER design requirements were reviewed and as appropriate updated and the focus of this paper will be on recent work affecting ITER with special emphasis on topics affecting near-term procurement arrangements.
Journal ArticleDOI
High-temperature plasmas in a tokamak fusion test reactor
J. D. Strachan,M. Bitter,A. T. Ramsey,M. C. Zarnstorff,V. Arunasalam,M. G. Bell,N. L. Bretz,Robert Budny,C. E. Bush,S. L. Davis,H. F. Dylla,P. C. Efthimion,R. J. Fonck,E. Fredrickson,H. P. Furth,Robert James Goldston,L. R. Grisham,B. Grek,R. J. Hawryluk,W. W. Heidbrink,H. W. Hendel,K. W. Hill,H. Hsuan,K. P. Jaehnig,D. L. Jassby,F. Jobes,D. W. Johnson,L. C. Johnson,R. Kaita,J. Kampershroer,R. J. Knize,T. A. Kozub,B. Leblanc,F. Levinton,P.H. La Marche,Dennis M. Manos,D. K. Mansfield,K. McGuire,D. H. McNeill,Dale Meade,S. S. Medley,W. Morris,D. Mueller,E. B. Nieschmidt,D. K. Owens,H. Park,J. Schivell,G. Schilling,G. L. Schmidt,S. D. Scott,S. Sesnic,J. C. Sinnis,F. J. Stauffer,B. C. Stratton,G. D. Tait,G. Taylor,H. H. Towner,M. J. Ulrickson,S. von Goeler,R. Wieland,M. D. Williams,K. L. Wong,S. Yoshikawa,K. M. Young,S. J. Zweben +64 more
TL;DR: The ion temperature and the deuterium-fusion neutron yields were significantly higher than for previous tokamak experiments and the low initial densities were achieved by operation of the Tokamak Fusion Test Reactor with low plasma currents and by extensive limiter conditioning.