References
- R. J. FONCK and R. A. HULSE, “He+ + Transport in the PDX Tokamak,” Phys. Rev. Lett., 52, 530 (1984).
- E. J. S. YNAKOWSKI et al., “Measurements of Radial Profiles of He2+ Transport Coefficients on TFTR Tokamak,” Phys. Rev. Lett., 65, 2255 (1990).
- E. J. SYNAKOWSKI et al., “Helium Transport in Super-shot and L-Mode Plasmas on TFTR,” Presented at Workshop on Edge Plasma Physics for Princeton Beta Experiment and ITER, Princeton, New Jersey, January 15–17, 1991.
- M. H. REDI, S. A. COHEN, and E. J. SYNAKOWSKI, “Transport Simulations of ITER Helium Exhaust Using Recent Data from TFTR, TEXTOR and JT-60,” PPPL-2765, Princeton Plasma Physics Laboratory (1991).
- T. T. C. JONES et al., “Simulated Ash Transport Experiments in JET Using Helium Neutral Beams and Charge Exchange Spectroscopy,” Proc. 18th European Conf. Controlled Fusion and Plasma Heating, Berlin, Germany, June 3–7, 1991, p. 121, European Physical Society (1991).
- D. L. HILLIS et al., “Helium Exhaust and Transport Studies with the ALT-II Pump Limiter in the TEXTOR Tokamak,” Phys. Rev. Lett., 65, 2382 (1990).
- M. NAGAMI et al., “Energy Confinement of Beam-Heated Divertor and Limiter Discharges in Doublet III,” Nucl. Fusion, 24, 183 (1984).
- S. A. COHEN et al., “Power and Particle Control for ITER,” Bull. Am. Phys. Soc., 35, 2106 (1990).
- G. BATEMAN, “Algorithms for 1-1/2-D Transport,” Proc. Trieste Spring College on Plasma Physics, World Scientific Press (1987).
- C. E. SINGER, L.-P. KU, and G. BATEMAN, “Plasma Transport in a Compact Ignition Tokamak,” Fusion Technol., 13, 543 (1988).
- D. F. DÜCHS, D. E. POST, and P. H. RUTHERFORD, “A Computer Model of Radial Transport in Tokamaks,” Nucl. Fusion, 17, 565 (1977).
- M. C. ZARNSTORFF et al., “Transport in TFTR Supershots,” Proc. 12th Int. Conf. Plasma Physics and Controlled Nuclear Fusion Research, Nice, France, October 12–19, 1988, International Atomic Energy Agency (1989); see also Nucl. Fusion Supplement, 1, 183 (1989).
- F. H. SEGUIN, P. PETRASSO, and E. S. MARMAR, “Effects of Internal Disruptions on Impurity Transport in Tokamaks,” Phys. Rev. Lett., 51, 455 (1983).
- C. BRETON et al., “TFR Discharges with Low Metal Impurity Radiation Level,” Plasma Phys. Controlled Fusion, 27, 355 (1985).
- B. C. STRATTON et al., “Spectroscopic Study of Impurity Behaviour in Neutral Beam Heated and Ohmically Heated TFTR Discharges,” Nucl. Fusion, 27, 1147 (1987).
- J. T. HOGAN et al., “ITER Helium Ash Accumulation,” Fusion Technol., 19, 1509 (1991).
- M. H. REDI and S. A. COHEN, “Effects of Particle Transport on Helium Ash Accumulation and Sustained Ignition in the International Thermonuclear Experimental Reactor,” Fusion Technol., 20, 48 (1991).
- A. GONDHALEKAR et al., “Correlation of Heat and Particle Transport in JET,” presented at International Atomic Energy Agency Technical Committee Mtg. Pellet Injection and Toroidal Confinement, Gut Ising, Germany, October 24–26, 1988.
- A. D. CHEETHAM et al., “Measurements of Correlations Between Thermal and Particle Transport in JET,” Proc. 12th Int. Conf. Plasma Physics and Controlled Nuclear Fusion Research, Nice, France, October 12–19, 1988, International Atomic Energy Agency (1989); see also Nucl. Fusion Supplement, 1, 483 (1989).
- F. NAJMABADI et al., “The ARIES-I Tokamak Reactor Study,” Fusion Technol., 19, 783 (1991).
- S. M. KAYE and R. J. GOLDSTON, “Global Energy Confinement Scaling for Neutral-Beam-Heated Tokamaks,” Nucl. Fusion, 25, 65 (1985).
- N. A. UCKAN, J. S. TOLLIVER, W. A. HOULBERG, and S. E. ATTENBERGER, “Influence of Fast Alpha Diffusion and Thermal Alpha Buildup on Tokamak Reactor Performance,” Fusion Technol., 13, 411 (1988).
- N. A. UCKAN, “Relative Merits of Size, Field, and Current on Ignited Tokamak Performance,” Fusion Technol., 14, 299 (1988).
- C. E. SINGER, G. BATEMAN, and D. P. STOTLER, “Boundary Conditions for OH, L and Η-Mode Simulations,” PPPL-2527, Princeton Plasma Physics Laboratory (1990).
- K. H. BURRELL et al., “Confinement Physics of H-Mode Discharges in DIII-D,” Plasma Phys. Controlled Fusion, 31, 1649 (1989).
- W. B. DOWNUM, “Radial Electric Fields for Improved Tokamak Performance,” Doctoral Dissertation, University of Illinois at Urbana-Champaign (1981).
- T. SUGIE et al., “Impurity Control and Helium Exhaust Experiment in JT-60,” Proc. 13th Int. Conf. Plasma Physics and Controlled Nuclear Fusion Research, Washington, D.C., September 10–19, 1990, Nucl. Fusion Supplement, 1, 385 (1991).
- M. KOTSCHENREUTHER et al., “Quantitative Predications of Tokamak Energy Confinement from First-Principles Simulations with Kinetic Effects,” Phys. Plasmas, 2, 2381 (1995).
- W. DORLAND et al., “Progress Toward a Complete Gyrofluid/Gyrokinetic Transport Model,” Bull. Am. Phys. Sac., 40, 1647 (1995).
- J. QIANG, C. SINGER, and T. HIRAYAMA, “Simulation of JT-60 Discharges with an Experimentally Calibrated Theoretical Transport Model,” Jpn. J. Appl. Phys., 35, 2797 (1996).
- J. QIANG and C. SINGER, “Parameter Estimation in a Tokamak Transport Model and Application to L- and H-Mode Simulation,” IEEE Trans. Plasma Sci. (to be published).
- J. QIANG, J. KINSEY, and C. E. SINGER, “Confidence Contours for Calibration of a Theoretical Transport Model Against a Multitokamak Database,” Nucl. Fusion (to be published).