TURBULENT TRANSPORT IN MAGNETIZED PLASMAS Copyright © 2012 by World Scientific Publishing Co.
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5 Toh Tuck Link, Singapore 596224 USA office: 27 Warren Street, Suite 401-402, Hackensack, NJ 07601 UK office: 57 Shelton Street, Covent Garden, London WC2H 9HEīritish Library Cataloguing-in-Publication Data A catalogue record for this book is available from the British Library. Published by World Scientific Publishing Co. Wendell Horton University of Texas at Austin, USA Turbulent Transport in Magnetized Plasmas Laboratory Experiments for Drift Wavesĥ.1 Basic Laboratory Experiments for Drift Waves with Uniform Temperature Profilesĥ.2 Discovery of Drift Waves in Early Q-Machine Experiments. 4.3.1.1 Examples of heat flux problem in fluid closures4.4 Pressure Gradient Driven InstabilitiesĤ.4.1 Scale invariance properties arising from an Ohm's law with electron inertiaĤ.4.2 Scaling of correlation length and timeĤ.5 Momentum Stress Tensor Stability Analysisĥ. 3.3.4 The effect of magnetic and Er shear on drift waves3.4 Weak Turbulence Theory for Drift Wavesģ.6 Drift Waves Paradigms: Hasegawa-Mima and Hasegawa-Wakatani ModelsĤ.2 Current, Density and Temperature Gradient Driven Drift ModesĤ.2.1 Ion acoustic waves and the thermal modeĤ.2.2 Ion temperature gradient instabilityĤ.3 Closure Models for Coupled Chain of Fluid MomentsĤ.3.1 Closure models for the chain of the fluid moments. 2.9.3 Probe measurements of the two-point correlation functions2.9.4 Probe measurements of the spectrum and anomalous resistivityĢ.9.6 Microwave scattering experiments in PLTĢ.10 Drift Waves and Transport in the TEXT Tokamakģ.3 Energy Bounds for Turbulence Amplitudesģ.3.3 Drift wave eigenmodes in toroidal geometry. 2.1 Low-Frequency Wave Dispersion Relations2.2 Reduction of the Kinetic Dispersion RelationĢ.5 Coupling of the Drift Wave, Ion-Acoustic and Shear Alfven WavesĢ.6 Drift Wave Eigenmodes in a Sheared Magnetic FieldĢ.7 Symmetries of the Drift Wave EigenmodesĢ.9.1 Electromagnetic scattering measurements of ion acoustic wavesĢ.9.2 Laser scattering experiment in Helium plasma. Basic Concepts and Historical Backgroundġ.4 Magnetic Confinement Conditions for Nuclear Fusionġ.6 Breakthrough with Tokamak Confinementġ.7 Confinement Records Set in Early Tokamaksġ.7.1 First generation tokamaks: Ormak, PLT, Alcator, ATC and TFRġ.7.3 Third-generation tokamaks with international growthĢ.