Ideal MHD stability of very high beta tokamaks | Zendy

M. S. Chance | Zendy; S.C. Jardin | Zendy; C. Kessel | Zendy; J. Manickam | Zendy; D. Monticello | Zendy; Y.K.M. Peng | Zendy; J. A. Holmes | Zendy; D.J. Strickler | Zendy; J. C. Whitson | Zendy; A. H. Glasser | Zendy; A. Sykes | Zendy; J. J. Ramos | Zendy

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Ideal MHD stability of very high beta tokamaks

Author(s) -

M. S. Chance,

S.C. Jardin,

C. Kessel,

J. Manickam,

D. Monticello,

Y.K.M. Peng,

J. A. Holmes,

D.J. Strickler,

J. C. Whitson,

A. H. Glasser,

A. Sykes,

J. J. Ramos

Publication year - 1990

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/6169268

Subject(s) - tokamak , beta (programming language) , divertor , ballooning , magnetohydrodynamics , physics , plasma , pressure gradient , toroid , bootstrap current , safety factor , current (fluid) , stability (learning theory) , atmospheric pressure plasma , toroidal and poloidal , enhanced data rates for gsm evolution , mechanics , boundary (topology) , atomic physics , mathematical analysis , mathematics , nuclear physics , thermodynamics , computer science , telecommunications , machine learning , programming language

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