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Plasma transport, heating, and MHD theory : proceedings of the workshop, Varenna, Italy, 12-16 September 1977 /

Plasma Transport, Heating and MHD Theory.

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Bibliographic Details
Corporate Authors: Workshop on Plasma Transport, Heating, and MHD Theory International School of Plasma Physics; Elsevier Science & Technology; International School of Plasma Physics
Group Author: Pozzoli, Peter R; Sindoni, E. Elio; Stringer, T. Ted
Published: Published for the Commission of the European Communities by Pergamon Press,
Publisher Address: Oxford ; New York :
Publication Dates: 1978.
Literature type: eBook
Language: English
Subjects:
Plasma heating > Congresses
Magnetohydrodynamics > Congresses
Transport theory > Congresses
Tokamaks > Congresses
Plasma Gaz ionise s > Chauffage > Congre s
Magne tohydrodynamique > Congre s
Transport, The orie du > Congre s
Tokamaks > Congre s
SCIENCE > Energy
SCIENCE > Mechanics > General
SCIENCE > Physics > General
Magnetohydrodynamics
Plasma heating
Tokamaks
Transport theory
Plasmas
Electronic books
Conference papers and proceedings
Online Access: http://www.sciencedirect.com/science/book/9780080234267
Summary: Plasma Transport, Heating and MHD Theory.
Item Description: At head of title: International School of Plasma Physics, Villa Monastero, Varenna, Italy.
"EUR 5883e."
Carrier Form: 1 online resource (vii, 432 pages) : illustrations
Bibliography: Includes bibliographical references and index.
ISBN: 9781483139432
1483139433
Index Number: QC718
CLC: O53-532
Contents: Front Cover ; Plasma Transport, Heating and MHD Theory; Copyright Page; Table of Contets; FOREWORD; INTRODUCTORY TALK; Part 1: MODES & INSTABILITIES; Chapter 1. ELECTRONS OF HIGH PERPENDICULAR ENERGY IN THE LOW-DENSITY REGIME OF TOKAMAKS; ABSTRACT; I. INTRODUCTION; II. INSTABILITY DRIVEN BY RUNAWAYS (LINEAR ANALYSIS); III. QUASILINEAR RELAXATION, BUMP FORMATION, AND SECONDARY INSTABILITY; IV. ELECTRON TRAPPING AND INTERACTION WITH THE WALL; V. CONCLUSIONS; ACKNOWLEDGEMENT; REFERENCES AND FOOTNOTES; DISCUSSION; Chapter 2. MODULATION INSTABILITY IN A MAGNETIC FIELD.
1. FORMULATION OF THE PROBLEM. ACKNOWLEDGMENTS; REFERENCES; DISCUSSION; Chapter 3. NON-THERMAL EMISSION AT THE PLASMA FREQUENCY; References:; DISCUSSION; Chapter 4. ASYMPTOTIC THEORY OF DISSIPATIVE TRAPPED ELECTRON MODE OVERLAPPING MANY RATIONAL SURFACES; References; DISCUSSION; Chapter 5. NONLINEAR STABILIZATION OF DRIFTWAVES; Abstract; I . Introduction; I I . Drift waves driven by inverse electron Landau damping; III . Trapped Electron Mode; References; DISCUSSION; Part 2: MHD THEORY, TRANSPORT PHENOMENA AND CODES; Chapter 6. THE MAKOKOT SIMULATION CODE; Rules and transport coefficients us
II. Turbulent Transport in the Diffusion ApproximationIII. Turbulent Transport From Trapped-Particle Instabilities; IV. Conclusions; References; DISCUSSION; Chapter 9. QUASI-LINEAR THEORY OF A TOROIDAL PLASMA IN THE SLIDE-AWAY REGIME; 1. INTRODUCTION.; ACKNOWLEDGMENTS; REFERENCES.; DISCUSSION; Chapter 10. RESISTIVE STEADY STATES OF ELLIPTICAL CROSS-SECTION PLASMAS; 1. INTRODUCTION; 2. THE MODEL, ASSUMPTIONS AND BOUNDARY CONDITIONS; 3. ISOTHERMAL PLASMA; 4. STEADY STATE PLASMA WITH A TEMPERATURE GRADIENT; 5. DISCUSSION AND CONCLUSIONS; ACKNOWLEDGEMENT; REFERENCES; DISCUSSION.
Chapter 11. INTEGRAL INVARIANTS AND QUASI-MHD NONLINEAR DISSIPATION1. INTRODUCTION; 2. INTEGRAL INVARIANTS; 3. DIFFUSION EQUATION FOR THE HELICAL FLUX; 4. NEOMAGNETOHYDRODYNAMICS OR NEOTHERMODYNAMICS; REFERENCES; DISCUSSION; Chapter 12. MHD STABILITY FOR A SPHERATOR WITH A PURELY POLOIDAL MAGNETIC FIELD; Introduction; Stability; Conclusions; References; DISCUSSION; PART 3:HEATING; Chapter 13. RF-HEATING IN STATIONARY SYSTEMS; BIBLIOGRAPHY; DISCUSSION; Chapter 14. LOWER HYBRID RESONANCE HEATING; REFERENCES; DISCUSSION.

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