References
- J. B. TAYLOR, “Relaxation and Magnetic Reconnection in Plasmas,” Rev. Mod. Phys., 58, 741 (1986).
- J. B. TAYLOR, “Relaxation of Toroidal Plasma and Generation of Reverse Magnetic Fields,” Phys. Rev. Lett., 33, 1139 (1974).
- T. R. JARBOE et al., “Motion of a Compact Toroid Inside a Cylindrical Flux Conserver,” Phys. Rev. Lett., 45, 1264 (1980).
- M. YAMADA et al., “Quasistatic Formation of the Spheromak Plasma Configuration,” Phys. Rev. Lett., 46, 188 (1981).
- T. R. JARBOE, “Review of Spheromak Research,” Plasma Phys. Control. Fusion, 36, 945 (1994).
- T. R. JARBOE et al., “The Ohmic Heating of a Spheromak to 100 eV,” Phys. Fluids, 27, 13 (1984).
- C. W. BARNES et al., “Spheromak Formation and Operation with Background Filling Gas and a Solid Flux Conserver in CTX,” Nucl. Fusion, 24, 267 (1984).
- C. W. BARNES et al., “Zero-Dimensional Energy Balance Modelling of the CTX Spheromak Experiment,” Nucl. Fusion, 25, 1657 (1985).
- E. J. WYSOCKI et al., “Improved Energy Confinement in Spheromaks with Reduced Field Errors,” Phys. Rev. Lett., 65, 40 (1990).
- F. J. WYSOCKI et al., “Evidence for a Pressure-Driven Instability in the CTX Spheromak,” Phys. Rev. Lett., 61, 2457 (1988).
- T. R. JARBOE et al., “Progress with Energy Confinement Time in the CTX Spheromak,” Phys. Fluids, B2, 1342 (1990).
- T. R. JARBOE et al., “Slow Formation and Sustainment of Spheromaks by a Coaxial Magnetized Plasma Source,” Phys. Rev. Lett., 51, 39 (1983).
- C. W. BARNES et al., “The Impedance and Energy Efficiency of a Coaxial Magnetized Plasma Source Used for Spheromak Formation and Sustainment,” Phys. Fluids, B2, 1871 (1990).
- C. W. BARNES et al., “Experimental Determination of the Conservation of Magnetic Helicity from the Balance Between Source and Spheromak,” Phys. Fluids, 29, 3415 (1986).
- M. R. BROWN and P. M. BELLAN, “Efficiency and Scaling of Current Drive and Refueling by Spheromak Injection into a Tokamak,” Nucl. Fusion, 32, 1125 (1992).
- L. L. LAO et al., “Reconstruction of Current Profile Parameters and Plasma Shapes in Tokamaks,” Nucl. Fusion, 25, 11 (1985).
- C. ZHANG, T. R. JARBOE, and B. A. NELSON, “Equilibrium Studies on the Helicity Injected Tokamak,” Bull. Am. Phys. Soc., 38, 2010 (1993).
- C. ZHANG, A. MARTIN, T. R. JARBOE, B. A. NELSON, and D. J. ORVIS, “Equilibrium Studies on the Helicity Injected Tokamak” (in preparation).
- L. L. LAO, General Atomics Technologies, Personal Communication (Mar. 1995).
- P. K. BROWNING, P. A. FRENCH, and T. R. JARBOE, “Minimum Energy States in Spheromaks with External Driving,” Proc. 20th Europhysics Conf. Controlled Fusion and Plasma Physics, Vol. II, p. 503.
- M. R. BROWN, A. D. BAILEY III, and P. M. BELLAN, “Characterization of a Spheromak Plasma Gun: The Effect of Refractory Electrode Coatings,” J. Appl. Phys., 69, 6302 (1991).
- J. M. FINN et al., “Spheromak Tilting Instability in Cylindrical Geometry,” Phys. Fluids, 24, 1682 (1981); see also A. BONDESON et al., “Tilting Instability of a Cylindrical Spheromak,” Phys. Fluids, 241, 1682 (1981).
- J. C. THOMAS et al., “A Simple Fast Pulse Gas Valve Using Dynamic Pressure Differential as the Primary Closing Mechanism,” Rev. Sci. Instrum., 64, 1410 (1993).
- D. J. REJ et al., “Design and Performance of the 10 kV, 5 MA Pulsed Power System for the FRX-C Compression Experiment,” LA-11519-MS, Los Alamos National Laboratory (1989).
- R. HOYT, “Optimization of Applied Magnetic Nozzles for Coaxial Plasma Accelerators,” PhD Thesis, University of Washington (1994).
- S. O. KNOX et al., “Observations of Spheromak Equilibria Which Differ from the Minimum-Energy State and Have Internal Kink Distortions,” Phys. Rev. Lett., 56, 842 (1986).
- E. B. HOOPER, J. H. HAMMER, C. W. BARNES, J. C. FERNÁNDEZ, and F. J. WYSOCKI, “A Reexamination of Spheromak Experiments and Opportunities,” Fusion Technol., 29, 191 (1996).
- R. E. CHRIEN et al., “Evidence for Runaway Electrons in a Spheromak Plasma,” Nucl Fusion, 31, 1390 (1991).