Berbice and Turkeyen Campuses
Ideal MHD /
by Freidberg, Jeffrey P.
Published by : Cambridge Univ. P., (Cambridge :) Physical details: xx, 722 p. : ill., diagrs., graphs. ISBN: 9781107006256. Subject(s): Magnetohydrodynamics -- Mathematical models. | Fluid dynamics -- Mathematical models. | Turbulence -- Mathematical models. | High temperature plasmas. | Plasma (Ionized gases). | Fusion reactors. Year: 2014
| Item type | Location | Call number | Status | Date due |
|---|---|---|---|---|
 3 Weeks Loan |
Turkeyen Campus
Science & Technology
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QC718.5.M36 F74 (Browse shelf) | Available |
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| QC718.5 H5 J35 Plasma heating by a relativistic electron beam | QC718.5. H5 T66 1975 Pulsed high beta plasmas : | QC718.5 M36 A28 Active control of magneto-hydrodynamic instabilities in hot plasmas / | QC718.5.M36 F74 Ideal MHD / | QC718.5. W3 F7 Plasma phenomena in gas discharges / | QC 721 C42 Pion-nucleon scattering, by Robert J. Cence. |
Updated version of: Ideal magnetohydrodynamics. 1987
Includes bibliographical references.
Machine generated contents note: 1. Introduction; 2. The ideal MHD model; 3. General properties of ideal MHD; 5. Equilibrium: one-dimensional configurations; 6. Equilibrium: two-dimensional configurations; 7. Equilibrium: three-dimensional configurations; 8. Stability: general considerations; 9. Alternate MHD models; 10. MHD stability comparison theorems; 11. Stability: one-dimensional configurations; 12. Stability: multi-dimensional configurations; Appendix A. Heuristic derivation of the kinetic equation; Appendix B. The Braginskii transport coefficients; Appendix C. Time derivatives in moving plasmas; Appendix D. The curvature vector; Appendix E. Overlap limit of the high b and Greene-Johnson stellarator models; Appendix F. General form for q(y); Appendix G. Natural boundary conditions; Appendix H. Upper and lower bounds on dQKIN.
"Comprehensive, self-contained, and clearly written, this successor to Ideal Magnetohydrodynamics (1987) describes the macroscopic equilibrium and stability of high temperature plasmas - the basic fuel for the development of fusion power. Now fully updated, this book discusses the underlying physical assumptions for three basic MHD models: ideal, kinetic, and double-adiabatic MHD. Included are detailed analyses of MHD equilibrium and stability, with a particular focus on three key configurations at the cutting-edge of fusion research: the tokamak, stellarator, and reversed field pinch. Other new topics include continuum damping, MHD stability comparison theorems, neoclassical transport in stellarators, and how quasi-omnigeneity, quasi-symmetry, and quasi-isodynamic constraints impact the design of optimized stellarators. Including full derivations of almost every important result, in-depth physical explanations throughout, and a large number of problem sets to help master the material, this is an exceptional resource for graduate students and researchers in plasma and fusion physics"--
Gift Gift April 11, 2016. 285703 US$85.00 Jermey Matthews
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