Synopsis
1. Atomic Collision Processes in Magnetic Confinement Controlled Thermonuclear Fusion Research.- 2. The Relevance of Atomic Processes to Magnetic Confinement and the Concept of a Tokamak Reactor.- 3. General Principles of Magnetic Fusion Confinement.- 4. Atomic Processes Relevant to Energy Balance and Impurity Control in Fusion Reactors.- 5. Wall Processes and Impurity Production due to Hydrogen Species.- 6. Theoretical Methods for Atomic Collisions: A General Survey.- 7. Theoretical Models for Charge Exchange.- 8. Theoretical Methods for Ionization.- 9. Theoretical Studies of Electron Impact Excitation of Positive Ions.- 10. Theory of Recombination Processes.- 11. Some Experimental Aspects of Inelastic Electron-Atom Collisions and Collisions between Charged Particles.- 12. Experiments on Electron Capture and Ionization by Ions.- 13. Experimental Studies of Energy Levels and Oscillator Strengths of Highly Ionized Atoms.- 14. Theoretical Studies of Oscillator Strengths for the Spectroscopy of Hot Plasmas.- 15. Spectroscopy of Highly Ionized Atoms in the Interior of Tokamak Plasma.- 16. Thermalization and Exhaust of Helium in a Future Thermonuclear Reactor: Partly an Atomic Physics Problem.
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