References
- M. TABAK et al., Phys. Plasmas, 1, 1626 (1994).
- J. MEYER-TER-VEHN, Nucl. Fusion, 22, 561 (1982).
- V. B. ROZANOV et al., “Inertial Confinement Target Physics,” Energy from Inertial Fusion, Chap. 2, STI/PUB/944, W. J. HOGAN, Ed., International Atomic Energy Agency (1995).
- J. LINDL, Phys. Plasmas, 2, 3933 (1995).
- R. E. KIDDER, Nucl. Fusion, 16, 405 (1976).
- G. A. ASKARYAN et al., JETP Lett., 17, 424 (1973).
- F. WINTERBERG, Z. Naturforsch, 28, 900 (1973).
- G. A. SMITH, Proc. RAND Workshop on Antiproton Science and Technology, October 6–9, 1987, p. 296, B. W. AUGERSTEIN et al., Eds., World Scientific, Singapore (1988).
- A. ANGELOPOULOS et al., Phys. Lett. B, 205, 590 (1988).
- H. MANCHER et al., Z. Phys. A, 343, 73 (1992).
- R. A. LEWIS, R. NEWTON, G. A. SMITH, and R. J. KANZLEITER, “Antiproton-Boosted Microfission,” Nucl. Sci. Eng., 109, 411 (1991).
- C. E. GAZZE, R. J. NEWTON, R. A. LEWIS, P.-R. CHIANG, and G. A. SMITH, “Neutron Yields for Antiproton Microfission Experiments,” Nucl. Sci. Eng., 118, 217 (1994).
- K. I. HIGMAN, R. J. NEWTON, R. A. LEWIS, P.-R. CHIANG, and G. A. SMITH, “Containment and Neutron Production by Charged Pions in Antiproton Microfission Experiments,” Nucl. Sci. Eng., 118, 227 (1994).
- T. VON EGIDY et al., Nucl. Phys. A, 558, 383c (1993).
- W. SCHMID et al., Nucl. Phys. A, 569, 689 (1994).
- A. GSPONER and J-P. HURNI, “The Physics of Antimatter-Induced Fusion and Thermonuclear Explosions,” Proc. 4th Int. Conf. Emerging Nuclear Energy Systems, Madrid, Spain, June 30–July 4, 1986, p. 166.
- A. GSPONER and J-P. HURNI, Atomkernenerg. Kerntech., 49, 198 (1987).
- D. L. MORGAN, Proc Conf. Annihilation in Gases and Galaxies, Goddard Space Flight Center, Greenbelt, Maryland, July 1989.
- A. FODERARO, The Elements of Neutron Interaction Theory, p. 486 ff, MIT Press, Cambridge, Massachusetts (1971).
- “Particle Properties Booklet,” M. AGUILAR-BENITREZ et al., Eds., American Institute of Physics (1992).
- “Total Cross Sections for Reactions of High Energy Particles,” New Series, Vol. 12a–b, H. SCHOPPER, Ed., Landolt Bornstein (1987).
- S. E. JONES, Phys. Rev. Lett., 51, 1757 (1983).
- R. L. FORWARD, “Antiproton Annihilation Propulsion— Final Report,” AFRPL TR-85-034/055, U.S. Air Force Rocket Propulsion Laboratory (1985).
- C. D. ORTH, “Interplanetary Space Transport Using Inertial Fusion Propulsion,” Proc. 9th Int. Conf. Emerging Nuclear Energy Systems, Tel Aviv, Israel, June 28–July 2, 1998, p. 253.
- A. HASEGAWA et al., Phys. Rev. Lett., 56, 846 (1986).
- R. P. DRAKE, J. H. HAMMER, C. W. HARTMAN, L. J. PERKINS, and D. D. RYUTOV, “Submegajoule Liner Implosion of a Closed Field Line Configuration,” Fusion Technol., 30, 310 (1996).
- L. J. PERKINS et al., “High Density, High Magnetic Field Concepts for Compact Fusion Reactors,” Proc. 16th IAEA Fusion Energy Conf., Montreal, Canada, October 7–11, 1996, IAEA-F1-CN-64/GP-18, International Atomic Energy Agency (1997).
- H. DAIDO et al., Phys. Rev. Lett., 56, 139 (1986).
- N. MATTOR and J. H. HAMMER, “Magnetically Ignited Inertial Confinement Fusion,” Bull. Am. Phys. Soc., 40, 1781 (1995).
- G. GABRIELSE, Phys. Rev. Lett., 27, 2504 (1986).
- M. H. HOLZSCHEITER et al., Phys. Lett. A, 214, 279 (1996).
- G. BAUR et al., Phys Lett. B, 368, 251 (1996).
- J. EADES, Nature, 379, 674 (1996) (progress can be monitored at http://www.cern.ch).
- W. C. STWALLEY, Proc. RAND Workshop Antiproton Science and Technology, October 6–9, 1987, pp. 373 and 393, B. W. AUGERSTEIN et al., Eds., World Scientific, Singapore (1988).
- R. WALDRON, Rev. Sci. Instrum., 37, 29 (1966).
- W. RHIM, “Development of an Electrostatic Levitator at JPL,” Material Processing in the Reduced Gravity Environment of Space, p. 115, G. RINDONE, Ed., Elsevier, New York (1982).
- M. TABAK and D. CALLAHAN-MILLER, Lawrence Livermore National Laboratory, Personal Communication (1998).