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Shock wave focusing by curved walls and staging of beam induced thermonuclear microexplosions

Published online by Cambridge University Press:  13 March 2009

F. Winterberg
F. Winterberg
Affiliation:
Desert Research Institute, University of Nevada System, Reno, Nevada 89507
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Abstract

Because of the technical difficulties associated with the production of ultrashort beam pulses, the efforts to release energy from thermonuclear microexplosions are mainly directed at present towards confinement in a high-Z material solid wall, as in the original proposal by the author for relativistic electron beam induced fusion. The most common approach today is by the implosion of a solid high-Z material shell, for example, with an intense relativistic electron beam. We will show that better utilization of the beam energy may be possible with beam bombardment of a curved concave wall, setting off a shock wave which can be focused precisely onto the thermonuclear target. In addition, by a proper variation of the atomic weight and density in the layer of the wall material to be ablated by the energy deposition of the beam, the pulse length of the shock wave can be made substantially shorter than the pulse length of the beam.

Type
Research Article
Information
Journal of Plasma Physics , Volume 16 , Issue 1 , August 1976 , pp. 81 - 94
Copyright
Copyright © Cambridge University Press 1976

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References

REFERENCES

Gross, R. A. 1975 Phys. Fluids, 18, 1075.Google Scholar
Lau, J. 1971 C.A.S.I. Transactions, 4, 13.Google Scholar
Lau, J. & MacLeod, D. 1972 C.A.S.I. Transactions, 5, 42.Google Scholar
Nuckolls, J., Wood, L. & Zimmerman, G. 1972 Nature, 239, 139.CrossRefGoogle Scholar
Rudakov, L. I. & Samarsky, A. A. 1973 6th European Conf. on Controlled Fusion and Plasma Physics. Moscow.Google Scholar
Winterberg, F. 1968 a Phys. Rev. 174, 212.CrossRefGoogle Scholar
Winterberg, F. 1968 b Plasma Phys. 10, 55.CrossRefGoogle Scholar
Winterberg, F. 1974 Nature, 251, 44.CrossRefGoogle Scholar
Winterberg, F. 1975 Plasma Phys. 17, 69.CrossRefGoogle Scholar
Yonas, G., Poukey, J. W., Prestwich, K. R., Freeman, J. R., Toepfer, A. J. & Clauser, M. J. 1974 Nuclear Fusion 14, 731.CrossRefGoogle Scholar