Cooperative program on DIII-D
Cooperative program on DIII-D
The main contribution of the Berkeley group to data has concerned ion temperature profile data reduction and transport analysis using this data. In addition, our graduate students have worked on fundamental aspects of transport theory, under the guidance of the Principal Investigator, to prepare them for productive participation in the D3-D program. One of these students, Q. Nguyen, has written a paper with Drs. Stambaugh and Fowler on divertor design, a subject of increasing urgency for ITER and an area of increasing importance in the D3-D program. Finally, work has been completed on determining upper bounds on fluctuation levels and growth constants, relevant to core plasma transport calculations, using thermodynamic methods. This report contains a brief summary of this work, with emphasis on the accomplishments during the past year.
- University of North Texas United States
Progress Report, Divertors, Transport, Tokamak Devices 700330* -- Plasma Kinetics, & Impurities-- (1992-), H-Mode Plasma Confinement, Document Types, Thermonuclear Devices, Ion Temperature, Radiation Transport, Plasma Confinement, 70 Plasma Physics And Fusion Technology, Doublet-3 Device, Charged-Particle Transport, Confinement, Closed Plasma Devices
Progress Report, Divertors, Transport, Tokamak Devices 700330* -- Plasma Kinetics, & Impurities-- (1992-), H-Mode Plasma Confinement, Document Types, Thermonuclear Devices, Ion Temperature, Radiation Transport, Plasma Confinement, 70 Plasma Physics And Fusion Technology, Doublet-3 Device, Charged-Particle Transport, Confinement, Closed Plasma Devices
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