V
V. D. Pustovitov
Researcher at Kurchatov Institute
Publications - 49
Citations - 2782
V. D. Pustovitov is an academic researcher from Kurchatov Institute. The author has contributed to research in topics: Tokamak & Plasma. The author has an hindex of 19, co-authored 43 publications receiving 2555 citations. Previous affiliations of V. D. Pustovitov include Keldysh Institute of Applied Mathematics & National Research Nuclear University MEPhI.
Papers
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Journal ArticleDOI
Chapter 3: MHD stability, operational limits and disruptions
T. C. Hender,J.C. Wesley,J.M. Bialek,Anders Bondeson,Allen H. Boozer,R.J. Buttery,Am Garofalo,Timothy Goodman,Robert Granetz,Y. Gribov,O. Gruber,Mikhail Gryaznevich,G. Giruzzi,Sibylle Günter,Nobuhiko Hayashi,Per Helander,Chris Hegna,D. F. Howell,D.A. Humphreys,G. T. A. Huysmans,A.W. Hyatt,Akihiko Isayama,Stephen Jardin,Yasunori Kawano,A. Kellman,C.E. Kessel,H. R. Koslowski,R. J. La Haye,E. Lazzaro,Yueqiang Liu,V.E. Lukash,J. Manickam,S. Medvedev,V. Mertens,S. V. Mirnov,Y. Nakamura,G.A. Navratil,M. Okabayashi,Takahisa Ozeki,Roberto Paccagnella,G. Pautasso,F. Porcelli,V. D. Pustovitov,V. Riccardo,M. Sato,Olivier Sauter,M.J. Schaffer,Michiya Shimada,Piergiorgio Sonato,E. J. Strait,M. Sugihara,Manabu Takechi,A. D. Turnbull,E. Westerhof,D.G. Whyte,R. Yoshino,H. Zohm +56 more
TL;DR: A review of recent advances in the area of MHD stability and disruptions, since the publication of the 1999 ITER Physics Basis document (1999 Nucl. Fusion 39 2137-2664), is reviewed in this paper.
Journal ArticleDOI
Chapter 1: Overview and summary
M. Shimada,David Campbell,V. Mukhovatov,M. Fujiwara,N. Kirneva,K. Lackner,M. Nagami,V. D. Pustovitov,N. Uckan,J. Wesley,N. Asakura,A.E. Costley,A. J. H. Donne,E. J. Doyle,Ambrogio Fasoli,C. Gormezano,Y. Gribov,O. Gruber,T. C. Hender,W. Houlberg,S. Ide,Y. Kamada,A. Leonard,Bruce Lipschultz,A. Loarte,Kenro Miyamoto,T. H. Osborne,A. Polevoi,A. C. C. Sips +28 more
TL;DR: The progress in the ITER Physics Basis (PIPB) document as discussed by the authors is an update of the IPB, which was published in 1999 [1], and provides methodologies for projecting the performance of burning plasmas, developed largely through coordinated experimental, modelling and theoretical activities carried out on today's large tokamaks (ITER Physics R&D).
Journal Article
Progress in the ITER Physics Basis - Chapter 1: Overview and summary
M. Shimada,David Campbell,V. Mukhovatov,Masami Fujiwara,N. A. Kirneva,K. Lackner,Masayuki Nagami,V. D. Pustovitov,Nermin A. Uckan,J.C. Wesley,Nobuyuki Asakura,A.E. Costley,A. J. H. Donné,E. J. Doyle,Ambrogio Fasoli,C. Gormezano,Y. Gribov,O. Gruber,T. C. Hender,Wayne A Houlberg,Shunsuke Ide,Yutaka Kamada,Anthony Leonard,Bruce Lipschultz,A. Loarte,Kenro Miyamoto,T.H. Osborne,A. R. Polevoi,A. C. C. Sipps +28 more
Journal ArticleDOI
Overview of physics basis for ITER
V. Mukhovatov,Michiya Shimada,A. N. Chudnovskiy,A.E. Costley,Yu. Gribov,G. Federici,O. Kardaun,A.S. Kukushkin,A. R. Polevoi,V. D. Pustovitov,Y. Shimomura,T. Sugie,M. Sugihara,G. Vayakis +13 more
TL;DR: In this article, the authors focus on inductively driven plasma performance and discuss requirements for steady-state operation in ITER, and consider the 'advanced tokamak' regimes with weak or negative central magnetic shear and internal transport barriers.
Journal ArticleDOI
Magnetic diagnostics: General principles and the problem of reconstruction of plasma current and pressure profiles in toroidal systems
TL;DR: In this paper, a series of examples demonstrating the strength of these restrictions is analyzed, and the general rule is emphasized that information obtained from external magnetic measurements is insufficient for reliable evaluation of plasma current and pressure profiles in tokamaks and in stellarators.