M
M. Kalish
Researcher at Princeton University
Publications - 3
Citations - 74
M. Kalish is an academic researcher from Princeton University. The author has contributed to research in topics: Tokamak & Magnetic confinement fusion. The author has an hindex of 3, co-authored 3 publications receiving 71 citations.
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Journal ArticleDOI
Overview of recent physics results from the National Spherical Torus Experiment (NSTX)
J.E. Menard,M. G. Bell,R. E. Bell,S. Bernabei,J.M. Bialek,T. M. Biewer,W. R. Blanchard,J.A. Boedo,C.E. Bush,Mark D. Carter,Wonho Choe,Neal Crocker,D.S. Darrow,W. Davis,L. F. Delgado-Aparicio,S. J. Diem,Calvin Domier,D. A. D'Ippolito,J.R. Ferron,A. R. Field,J. Foley,E.D. Fredrickson,D.A. Gates,T. Gibney,R. W. Harvey,R. Hatcher,William Heidbrink,K. W. Hill,J.C. Hosea,Thomas Jarboe,David W. Johnson,R. Kaita,Stanley Kaye,Charles Kessel,S. Kubota,H.W. Kugel,J. Lawson,B. LeBlanc,K. C. Lee,Fred Levinton,Neville C. Luhmann,Rajesh Maingi,Richard Majeski,J. Manickam,D. K. Mansfield,R.J. Maqueda,R. Marsala,D. Mastrovito,T. K. Mau,E. Mazzucato,S. S. Medley,H. F. Meyer,D. R. Mikkelsen,D. Mueller,Tobin Munsat,J.R. Myra,B. A. Nelson,C. Neumeyer,Nobuhiro Nishino,M. Ono,Hyeon K. Park,W. Park,S. F. Paul,T. Peebles,M. Peng,C. K. Phillips,A. Pigarov,R.I. Pinsker,Abhay K. Ram,S. Ramakrishnan,Roger Raman,David A Rasmussen,M. H. Redi,M.E. Rensink,G. Rewoldt,J. Robinson,P. Roney,A. L. Roquemore,E. Ruskov,P.M. Ryan,S.A. Sabbagh,H. Schneider,C.H. Skinner,David R. Smith,Aaron Sontag,Vlad Soukhanovskii,T. Stevenson,D. P. Stotler,Brentley Stratton,Dan Stutman,D.W. Swain,E. J. Synakowski,Yuichi Takase,G. Taylor,Kevin Tritz,A. von Halle,M. R. Wade,Roscoe White,John B Wilgen,M. Williams,J. R. Wilson,Howard Yuh,Leonid E. Zakharov,W. Zhu,S. J. Zweben,R. J. Akers,Peter Beiersdorfer,Riccardo Betti,T.S. Bigelow,Manfred Bitter,P.T. Bonoli,Clarisse Bourdelle,Choong-Seock Chang,J. Chrzanowski,L. Dudek,P. C. Efthimion,Michael Finkenthal,E. Fredd,Guoyong Fu,Alan H. Glasser,Robert James Goldston,N. L. Greenough,L. R. Grisham,N. N. Gorelenkov,Luca Guazzotto,R. J. Hawryluk,J.T. Hogan,Wayne A Houlberg,D.A. Humphreys,F. Jaeger,M. Kalish,Sergei Krasheninnikov,L.L. Lao,J. Lawrence,J.A. Leuer,D. W. Liu,G. Oliaro,D. Pacella,R. Parsells,M.J. Schaffer,I.B. Semenov,Ker-Chung Shaing,Michael A. Shapiro,Kouji Shinohara,P. Sichta,Xian-Zhu Tang,R. Vero,M.L. Walker,William R. Wampler +148 more
TL;DR: The National Spherical Torus Experiment (NSTX) has made considerable progress in advancing the scientific understanding of high performance long-pulse plasmas needed for future spherical torus (ST) devices and ITER.
Journal ArticleDOI
The design of the Tokamak Physics Experiment (TPX)
J. Schmidt,K. I. Thomassen,Robert James Goldston,G. H. Neilson,W. M. Nevins,J. C. Sinnis,P. Andersen,W. Bair,W. L. Barr,Donald B. Batchelor,C. Baxi,G. Berg,S. Bernabei,J. M. Bialek,P.T. Bonoli,Allen H. Boozer,D. Bowers,G. Bronner,Jeffrey N. Brooks,T. G. Brown,R.H. Bulmer,D. Butner,R. Campbell,T. Casper,E.A. Chaniotakis,M. Chaplin,S. J. Chen,E. Chin,J. Chrzanowski,J. Citrolo,M. J. Cole,F. Dahlgren,F.C. Davis,J. Davis,S. Davis,N. Diatchenko,S. Dinkevich,Y. Feldshteyn,B. Felker,T. Feng,M. E. Fenstermacher,R. Fleming,P.J. Fogarty,W. Fragetta,E. Fredd,M. Gabler,John D Galambos,Yousry Gohar,P.L. Goranson,N. Greenough,L. R. Grisham,J.R. Haines,Scott W. Haney,W.V. Hassenzahl,J. Heim,P. J. Heitzenroeder,D. N. Hill,T. Hodapp,W. A. Houlberg,Amanda Hubbard,A. Hyatt,M. Jackson,E. F. Jaeger,Stephen Jardin,J.L. Johnson,G. H. Jones,Daniel R. Juliano,R. Junge,M. Kalish,C. E. Kessel,D. Knutson,R. J. Lahaye,D. D. Lang,R. A. Langley,S. L. Liew,E. Lu,H. Mantz,J. Manickam,T. K. Mau,S. Medley,D. R. Mikkelsen,R.L. Miller,D. A. Monticello,D. Morgan,P. Moroz,C. Motloch,J. Mueller,L. Myatt,B.E. Nelson,C. Neumeyer,D. Nilson,T. O'Conner,L. D. Pearlstein,W. A. Peebles,M. Pelovitz,F. W. Perkins,L.J. Perkins,D. Petersen,R. Pillsbury,P. A. Politzer,Neil Pomphrey,Miklos Porkolab,A. Posey,Alexey Radovinsky,S. Raftopoulis,S. Ramakrishnan,J. J. Ramos,W. Rauch,D. Ravenscroft,K. Redler,W. Reiersen,A. Reiman,E. Reis,G. Rewoldt,D. J. Richards,R. Rocco,T. D. Rognlien,David N. Ruzic,S.A. Sabbagh,J. Sapp,R. O. Sayer,J. E. Scharer,L. Schmitz,J. Schnitz,L. Sevier,S. E. Shipley,R. T. Simmons,D. Slack,G. Smith,R.D. Stambaugh,G. Steill,T. Stevenson,S. Stoenescu,K. T.St Onge,D. P. Stotler,T. Strait,Dennis J Strickler,D. W. Swain,William Tang,M. Tuszewski,M. A. Ulrickson,A. VonHalle,M. S. Walker,C. Wang,P. Wang,J. Warren,K. A. Werley,W. P. West,F. Williams,R. L. Wong,K. Wright,G. A. Wurden,J. J. Yugo,Leonid E. Zakharov,J. Zbasnik +154 more
TL;DR: The Tokamak Physics Experiment (TPX) as mentioned in this paper was designed to develop the scientific basis for a compact and continuously operating tokamak fusion reactor, which is based on an emerging class of tokak operating modes, characterized by beta limits well in excess of the Troyon limit, confinement scaling well, and bootstrap current fractions approaching unity.
Journal ArticleDOI
Status and Plans for the National Spherical Torus Experimental Research Facility
M. Ono,M. G. Bell,R. E. Bell,S. Bernabei,J.M. Bialek,T.S. Bigelow,Manfred Bitter,T. M. Biewer,W. R. Blanchard,J. Boedo,C.E. Bush,J. Chrzanowski,D.S. Darrow,L. Dudek,R. Feder,J.R. Ferron,J. Foley,E.D. Fredrickson,D.A. Gates,G. Gettelfinger,T. Gibney,R. W. Harvey,R. Hatcher,W. Heidbrink,Thomas Jarboe,David W. Johnson,M. Kalish,R. Kaita,Stanley Kaye,C. E. Kessel,S. Kubota,H.W. Kugel,G. Labik,B. LeBlanc,K. C. Lee,Fred Levinton,J. L. Lowrance,Rajesh Maingi,J. Manickam,R.J. Maqueda,R. Marsala,D. Mastravito,E. Mazzucato,S. S. Medley,J.E. Menard,D. Mueller,Tobin Munsat,Brian Nelson,C. Neumeyer,Nobuhiro Nishino,Hyeon K. Park,S. F. Paul,T. Peebles,E. Perry,Yueng Kay Martin Peng,C. K. Phillips,R.I. Pinsker,S. Ramakrishnan,Roger Raman,P. Roney,A. L. Roquemore,P.M. Ryan,S.A. Sabbagh,H. Schneider,C.H. Skinner,David R. Smith,Aaron Sontag,Vlad Soukhanovskii,T. Stevenson,D. P. Stotler,Brentley Stratton,Dan Stutman,D.W. Swain,E. J. Synakowski,Yuichi Takase,G. Taylor,Kevin Tritz,A. von Halle,John B Wilgen,M. Williams,J. R. Wilson,I. Zatz,W. Zhu,S. J. Zweben,R.J. Akers,Peter Beiersdorfer,P.T. Bonoli,Clarisse Bourdelle,Mark D. Carter,Choong-Seock Chang,Wonho Choe,W. Davis,S. J. Diem,C. Domier,Richard Ellis,P. C. Efthimion,A. R. Field,Michael Finkenthal,E. Fredd,Guoyong Fu,Alan H. Glasser,Robert James Goldston,L. R. Grisham,N.N. Gorelenkov,Luca Guazzotto,R. J. Hawryluk,P. J. Heitzenroeder,K. W. Hill,Wayne A Houlberg,J.C. Hosea,D.A. Humphreys,C. Jun,Jayhyun Kim,S. Krasheninnikov,L.L. Lao,S. G. Lee,J. Lawson,N. C. Luhmann,T. K. Mau,M.M. Menon,Osamu Mitarai,Masayoshi Nagata,G. Oliaro,D. Pacella,R. Parsells,A. Pigarov,G.D. Porter,Abhay K. Ram,David A Rasmussen,M. H. Redi,G. Rewoldt,J. Robinson,E. Ruskov,J. Schmidt,I. Semenov,Ker-Chung Shaing,K. Shinohara,M.J. Schaffer,P. Sichta,Xian-Zhu Tang,J. Timberlake,M. R. Wade,William R. Wampler,Zhehui Wang,R. Woolley,G. A. Wurden,Xueqiao Xu +146 more
TL;DR: An overview of the research capabilities and the future plans on the MA-class National Spherical Torus Experiment (NSTX) at Princeton is presented in this paper, where the authors describe the Next-Step-ST (NSST) device being designed to address these issues in fusion-relevant plasma conditions.