S. L. Davis
Princeton University
18 Papers
359 Citations
S. L. Davis is an academic researcher from Princeton University. The author has contributed to research in topics: Tokamak & Neutral beam injection. The author has an hindex of 12, co-authored 18 publications.
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Papers
Fusion neutron production during deuterium neutral-beam injection into the PLT tokamak
J. D. Strachan,P. Colestock,S. L. Davis,D. Eames,P. C. Efthimion,H.P. Eubank,Robert James Goldston,L. R. Grisham,R. J. Hawryluk,J. C. Hosea,J. Hovey,D. L. Jassby,David W. Johnson,A.A. Mirin,G. Schilling,R. W. Stooksberry,L. Stewart,H. H. Towner +17 more
TL;DR: In this article, a fusion neutron emission of 1.5 × 1014 neutrons s−1 and 2 × 1013 neutrons/pulse has been observed for PLT deuterium discharges with up to 2.5 MW of neutral-beam injection.
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Confinement studies of neutral beam heated discharges in TFTR
M. Murakami,V. Arunasalam,J. D. Bell,M. G. Bell,Manfred Bitter,W. R. Blanchard,F.P. Boody,N. Bretz,Robert Budny,C. E. Bush,J. D. Callen,Joseph L. Cecchi,Samuel Cohen,R. J. Colchin,S.K. Combs,J. Coonrod,S. L. Davis,D. Dimock,H. F. Dylla,P. C. Efthimion,L. C. Emerson,A. C. England,H.P. Eubank,R. J. Fonck,E.D. Fredrickson,Harold P. Furth,L. R. Grisham,S. von Goeler,Robert James Goldston,B. Grek,R. Groebner,R. J. Hawryluk,H. W. Hendel,K. W. Hill,D. L. Hillis,W. W. Heidbrink,R. A. Hulse,David W. Johnson,L. C. Johnson,R. Kaita,R. Kamperschroer,Stanley Kaye,S. J. Kilpatrick,H.W. Kugel,P. H. LaMarche,R. Little,C. H. Ma,Dennis M. Manos,D. K. Mansfield,M. McCarthy,R. T. McCann,D. C. McCune,K. McGuire,Dale Meade,S. S. Medley,S. L. Milora,D. R. Mikkelsen,D. Mueller,E. Nieschmidt,D. K. Owens,V. K. Pare,Hyeon K. Park,B. Prichard,A. T. Ramsey,David A Rasmussen,M. H. Redi,A. L. Roquemore,P.H. Rutherford,N. R. Sauthoff,J.F. Schivell,G. L. Schmidt,S. D. Scott,S. Sesnic,M. Shimada,J. E. Simpkins,J. Sinnis,F. Stauffer,J. D. Strachan,Brentley Stratton,G. D. Tait,G. Taylor,C. E. Thomas,H. H. Towner,M. Ulrickson,R. M. Wieland,J. B. Wilgen,M. Williams,K. L. Wong,S. Yoshikawa,K. M. Young,M. C. Zarnstorff,S. J. Zweben +91 more
TL;DR: The TFTR tokamak has reached its original machine design specifications (Ip=2.5 MA and BT=5.2 T) by operating at low plasma current and low density (ne approximately=1*1019 m-3), high ion temperatures (9+or2 keV) and rotation speeds (7*105 m/s) have been achieved during injection.
Correlations of heat and momentum transport in the TFTR tokamak
S. D. Scott,V. Arunasalam,Cris W. Barnes,Cris W. Barnes,M. G. Bell,Manfred Bitter,R. Boivin,N. Bretz,Robert Budny,C. E. Bush,C. E. Bush,A. Cavallo,T. K. Chu,Samuel Cohen,P. Colestock,S. L. Davis,D. Dimock,H. F. Dylla,P. C. Efthimion,A. B. Erhrardt,R. J. Fonck,R. J. Fonck,E.D. Fredrickson,Harold P. Furth,Robert James Goldston,G. Greene,B. Grek,L. R. Grisham,Gregory W. Hammett,R. J. Hawryluk,H. W. Hendel,K. W. Hill,Einar Hinnov,D. J. Hoffman,D. J. Hoffman,J. Hosea,R. B. Howell,R. B. Howell,H. Hsuan,R. A. Hulse,K. P. Jaehnig,K. P. Jaehnig,A. C. Janos,D.L. Jassby,F. C. Jobes,David W. Johnson,L. C. Johnson,R. Kaita,C. Kieras‐Phillips,S. J. Kilpatrick,P. H. LaMarche,B. LeBlanc,R. Little,Dennis M. Manos,D. K. Mansfield,E. Mazzucato,M. McCarthy,D. C. McCune,K. McGuire,D. H. McNeill,Dale Meade,S. S. Medley,D. R. Mikkelsen,R. W. Motley,D. Mueller,J. A. Murphy,Y. Nagayama,Y. Nagayama,R. Nazakian,D. K. Owens,Hyeon K. Park,A. T. Ramsey,M. H. Redi,A. L. Roquemore,P. H. Rutherford,G. Schilling,J.F. Schivell,G. L. Schmidt,J. E. Stevens,Brentley Stratton,W. Stodiek,E. J. Synakowski,William Tang,G. Taylor,J. Timberlake,H. H. Towner,M. Ulrickson,S. von Goeler,R. M. Wieland,M. Williams,J. R. Wilson,K. L. Wong,S. Yoshikawa,K. M. Young,M. C. Zarnstorff,S. J. Zweben +95 more
TL;DR: In this paper, the toroidal rotation speed vφ(r) driven by neutral beam injection in tokamak plasmas and, in particular, simultaneous profile measurements have provided new insights into the nature of anomalous transport in TOkamaks.
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Plasma-material interactions in TFTR
H. F. Dylla,Team Tftr Team,M. G. Bell,W. R. Blanchard,P. P. Boody,N. Bretz,Robert Budny,C. E. Bush,Joseph L. Cecchi,Samuel A. Cohen,S.K. Combs,S. L. Davis,B. L. Doyle,P. C. Efthimion,A. C. England,H.P. Eubank,R. J. Fonck,E.D. Fredrickson,L. R. Grisham,Robert James Goldston,B. Grek,R. Groebner,R. J. Hawryluk,D.B. Heifetz,H. W. Hendel,K. W. Hill,S. Hiroe,R. A. Hulse,David W. Johnson,L. C. Johnson,S. J. Kilpatrick,P. H. LaMarche,R. Little,Dennis M. Manos,D. K. Mansfield,Dale Meade,S. S. Medley,S. L. Milora,D. R. Mikkelsen,D. Mueller,M. Murakami,E. Nieschmidt,O. K. Owens,Hyeon K. Park,A.E. Pontau,B. Prichard,A. T. Ramsey,M. H. Redi,J.F. Schivell,G. L. Schmidt,S. D. Scott,S. Sesnic,M. Shimada,J. E. Simpkins,J. Sinnis,F. Stauffer,Brentley Stratton,G. D. Tait,G. Taylor,M. Ulrickson,S. von Goeler,W. R. Wampler,K. Wilson,M. Williams,K. L. Wong,K. M. Young,M. C. Zarnstorff,S. J. Zweben +67 more
TL;DR: In this paper, a summary of plasma-material interactions which influence the operation of TFTR with high current (≤ 2.2 MA) ohmically heated, and high power (∼ 10 MW) neutral-beam heated plasmas is presented.
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Impurity levels and power loading in the pdx tokamak with high power neutral beam injection
R. J. Fonck,M. G. Bell,K. Bol,K. Brau,Robert Budny,Joseph L. Cecchi,Samuel A. Cohen,S. L. Davis,H. F. Dylla,Robert James Goldston,B. Grek,R. J. Hawryluk,J. Hirschberg,David W. Johnson,R. Hulse,R. Kaita,Stanley Kaye,R. J. Knize,H.W. Kugel,Dennis M. Manos,D. K. Mansfield,K. McGuire,D. Mueller,K. Oasa,M. Okabayashi,D. K. Owens,J. Ramette,R. Reeves,M. Reusch,G. L. Schmidt,S. sesnic,Szymon Suckewer,H. Takahashi,F. Tenney,P. Thomas,M. Ulrickson,Roger V. Yelle +36 more
TL;DR: The PDX tokamak provides an experimental facility for the direct comparison of various impurity control techniques under reactor-like conditions as mentioned in this paper, where four neutral beam lines inject > 6 MW for 300 ms.
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