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Fusion Technology Volume 22, 1992 - Issue 2
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Technical Paper

Lower Hybrid Heating in a High-Field Deuterium-Tritium Ignition Experiment

Linda E. SugiyamaMassachusetts Institute of Technology Cambridge, Massachusetts 02139
Pages 236-242 | Published online: 09 May 2017

References

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  • P. T. BONOLI, M. PORKOLAB, Y. TAKASE, and S. F. KNOWLTON, “Numerical Modeling of Lower Hybrid RF Heating and Current Drive in the Alcator-C Tokamak,” Nucl. Fusion, 28, 991 (1988).
  • P. T. BONOLI and R. ENGLADE, “Simulation Model for Lower Hybrid Current Drive,” Phys. Fluids, 29, 2937 (1986).
  • M. PORKOLAB, “Radio-Frequency Heating of Magnetically Confined Plasma,” Fusion, Vol. 1B, p. 151, E. TELLER, Ed., Academic Press, New York (1981).
  • M. BRAMBILLA, “Ignition with Lower Hybrid Heating,” Physics of Plasmas Close to Thermonuclear Conditions, Proc. Int. School of Plasma Physics, Varenna, Italy, August 27-September 8, 1979, Vol. 1, p. 291, Commission of the European Communities, Brussels, Belgium (1980).
  • M. PORKOLAB, “Parametric Instabilities Due to Lower-Hybrid Radio Frequency Heating of Tokamak Plasmas,” Phys. Fluids, 20, 2058 (1977).
  • P. T. BONOLI and M. PORKOLAB, “Radiofrequency Current Generation by Lower Hybrid Slow Waves in the Presence of Fusion Generated Alpha Particles in the Reactor Regime,” Nucl. Fusion, 27, 1341 (1987).
  • D. C. ROBINSON, AEA Technology, Culham Laboratory, Personal Communication (1989).
  • S. TAMOR, “A Simple Fast Routine for Computation of Energy Transport by Synchroton Radiation in Tokamaks and Similar Geometries,” SAI-023-81-189-LJ, Science Applications, Inc. (1981).
  • M. H. REDI, W. M. TANG, P. C. EFTHIMION, D. R. MIKKELSEN, and G. L. SCHMIDT, “Transport Simulations of Ohmic TFTR Experiments with Microinstability Based, Profile Consistent Models for Electron and Ion Thermal Transport,” Nucl. Fusion, 27, 2001 (1987).
  • B. COPPI, R. ENGLADE, M. NASSI, F. PEFORARO, and L. SUGIYAMA, “Current Density Transport, Confinement and Fusion Burn Conditions,” Proc. 13th Int. Conf Plasma Physics and Controlled Nuclear Fusion Research, Washington, D.C., October 1–6, 1990, paper CN-53/D-4-14, International Atomic Energy Agency (1991).
  • L. SUGIYAMA and M. NASSI, “Free Boundary Current Ramp and Profile Control in a D-T Ignition Experiment,” Nucl. Fusion, 32, 387 (1992).
  • B. COPPI, M. NASSI, and L. SUGIYAMA, “Physics Basis for Compact Ignition Experiments,” Phys. Scripta, 45, 112 (1992).

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