REFERENCES
- “The Magnetic Fusion Program Plan,” DOE/ER-0214, U.S. Department of Energy, Office of Fusion Energy (February 1985).
- B. COPPI, “Compact Experiments for α-Particle Heating,” Comments Plasma Phys. Controlled Fusion, 3, 47 (1977).
- D. COHN et al., “A High-Field Ignition Test Reactor (HFITR),” in Fusion Reactor Design Concepts, IAEA, Vienna, pp. 113–18 (1978).
- “Report on Assessment of Burning-Plasma Phenomena in a Compact Ignition Tokamak,” presented to the Magnetic Fusion Advisory Committee by Panel XIV, February 10, 1986.
- R. GOLDSTON, “Energy Confinement Scaling on Tokamaks,” Plasma Phys. Controlled Fusion, 26, 87 (1984).
- B. BLACKWELL et al., “Energy and Impurity Transport in the Alcator-C Tokamak,” in Plasma Physics and Controlled Nuclear Fusion Research, IAEA, Vienna, Vol. II, p. 27 (1983).
- S. M. KAYE and R. J. GOLDSTON, “Global Energy Confinement Scaling for Neutral-Beam Heated Tokamaks,” Nucl. Fusion, 25, 65 (1985).
- M. MURAKAMI, J. D. CALLEN, and L. A. BERRY, “Some Observations on Maximum Densities in Tokamak Experiments,” Nucl. Fusion, 16, 347 (1976).
- F. TROYON, R. GRUBER, H. SAURENMANN, S. SEMENZATO, and S. SUCCI, “MHD-Limits to Plasma Confinement,” Plasma Phys. Controlled Fusion, 26, 209 (1984).
- B. COPPI, “An Advanced Burning Core Experiment,” PTP-84/17, Research Laboratory of Electronics, Massachusetts Institute of Technology (1984).
- W. A. HOULBERG et al., “Contour Analysis of Fusion Reactor Plasma Performance,” Nucl. Fusion, 22, 935 (1982).
- C. S. CHANG and F. L. HINTON, “Effect of Finite Aspect Ratio on the Neoclassical Ion Thermal Conductivity in the Banana Regime,” Phys. Fluids, 25, 1493 (1982).
- B. COPPI, M. N. ROSENBLUTH, and R. Z. SAGDEEV, Phys. Fluids, 10, 582 (1967).
- S. WOLFE et al., “Effect of Pellet Fueling on Energy Transport in Ohmically Heated Alcator-C Plasmas,” Nucl. Fusion, 26, 329 (1986).
- F. W. PERKINS, in Heating in Toroidal Plasmas: Proceedings of the 4th International Symposium, Rome, March 1984, Vol. II, p. 977 (1984).
- D. W. SWAIN et al., “High-Beta Injection Experiments on the ISX-B Tokamak,” Nucl. Fusion, 21, 1409 (1981).
- F. WAGNER et al., “Regime of Improved Confinement and High Beta in Neutral-Beam-Heated Discharges in the ASDEX Tokamak,” Phys. Rev. Lett., 49, 1408 (1982).
- B. COPPI, “Neoclassical Transport and the ‘Principle of Profile Consistency,’” Comments Plasma Phys. Controlled Fusion, 5, 261 (1980).
- M. GREEN WALD, Massachusetts Institute of Technology, private communication (1985). To be submitted to Nuclear Fusion.
- C. D. HENNING et al., “TIBER—Tokamak Ignition/Burn Experimental Research, Final Design Report,” UCID-20589, Lawrence Livermore National Laboratory (November 1985).
- J. SHEFFIELD et al., “Cost Assessment of a Generic Magnetic Fusion Reactor,” Fusion Technol., 9, 199 (1986).
- B. G. LOGAN, “A Rationale for Fusion Economics Based on Inherent Safety,” J. Fusion Energy, 4, 245 (1985).
- C. F. F. KARNEY and J. FISCH, “Efficiency of Current Drive by Fast Waves,” PPPL-2128, Princeton Plasma Physics Laboratory (1984).