Hydrogen may be compressed to more than 10,000 times liquid density by an implosion system energized by a high energy laser. This scheme makes possible efficient thermonuclear burn of small pellets of heavy hydrogen isotopes, and makes feasible fusion power reactors using practical lasers.
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Teller, E., Science, 121, 267 (1955).
Lawson, J., Proc. Phys. Soc. (Lond.), B 70, 6 (1957).
Gough, W., and Eastlund, B., Scient. Amer., 224, 50 (1971).
Daugherty, J., Pugh, E., and Douglas-Hamilton, D., Proc. Twenty-fourth Annual Gaseous Electronics Conf. (Gainesville, Fla., 1971).
Schwartzschild, M., Structure and Evolution of the Stars, 206 (Dover, New York, 1965).
Chandrasekhar, S., Stellar Structure, 427 (University of Chicago Press, Chicago, 1938).
Landau, L., and Lifshitz, E., Statistical Physics, ch. 5 (Addison-Wesley, Reading, 1969).
Mayer, J., and Mayer, M., Statistical Mechanics, 385 (Wiley, 1940).
Guderley, G., Luftfahrforsch., 19, 302 (1942).
Daiber, J., Hertzberg, A., and Wittliff, C., Phys. Fluid., 9, 617 (1966).
Cox, M., et al., Laser Focus, 3, 21 (1967).
Kruer, W., and Dawson, J., Phys. Fluids, 14, 1003 (1971).
Taylor, G., Proc. Royal Society, 201, A, 192 (1950).
Spitzer, L., Physics of Fully Ionized Gases, 135 (Wiley, New York, 1967).
Bodner, S., Chapline, G., and DeGroot, J., UCRL-73425 (1971).
Kidder, R., and Zink, J., UCRL-73465 (1971).
Freeman, B., Wood, L., and Nuckolls, J., Some General Design Considerations for Laser-Fusion CTR Power Plants, APS Meeting, Madison, Wisconsin (in the press).
Fraas, A. ORNL-TM-3231 (1971).
Haught, A., and Polk, D., Phys. Fluids, 13, 2825 (1970).
Haught, A., Polk, D., and Fader, W., Phys. Fluids, 13, 2842 (1970).
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NUCKOLLS, J., WOOD, L., THIESSEN, A. et al. Laser Compression of Matter to Super-High Densities: Thermonuclear (CTR) Applications. Nature 239, 139–142 (1972). https://doi.org/10.1038/239139a0
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