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Fusion Science and Technology Volume 43, 2003 - Issue 3: Special Issue of the Second International Atomic Energy Agency Technical Meeting on Physics and Technology of Inertial Fusion Energy Targets and Chambers
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Technical Paper

Development of Divinylbenzene Foam Shells for Use as Inertial Fusion Energy Reactor Targets

Jon StreitSchafer Corporation, 303 Lindbergh Avenue Livermore, California 94551
&
Diana SchroenSchafer Corporation, 303 Lindbergh Avenue Livermore, California 94551
Pages 321-326 | Published online: 12 May 2017

References

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  • M. TAKAGI, T. NORIMATSU, T. YAMANAKA, and S. NAKAI, “A Novel Technique to Make Foam Shells with High Sphericity and Wall Uniformity for Cryogenic Laser Fusion Targets,” J. Vac. Sci. Technol. A, 9, 3 (May/June 1991).
  • D. SCHROEN, G. E. OVERTURF III, R. REIBOLD, S. R. BUCKLEY, S. A. LETTS, and R. COOK, “Hollow Foam Microshells for Liquid-Layered Cryogenic Inertial Confinement Fusion Targets,” J. Vac. Technol. A, 13, 5 (Sep./Oct. 1995).
  • C. CHEN, R. C. COOK, B. L. HAENDLER, L. M. HAIR, F. M. KONG, and S. A. LETTS, “Low-Density Hydrocarbon Foams for Laser Fusion Targets,” UCID-21080-86 (June 1987).
  • R. COOK, M. TAKAGI, B. MCQUILLAN, and R. STEPHENS, “The Development of Plastic Mandrels for NIF Targets,” UCRL-LR-105821-00-1, Lawrence Livermore National Laboratory.
  • CRC Handbook of Chemistry and Physics, 3rd Electronic Edition.
  • M. TAKAGI, R. COOK, R. STEPHENS, J. GIBSON, and S. PAGUIO, “Decreasing Out-of-Round in Poly(a-Methyl Styrene) Mandrels by Increasing Interfacial Tension,” Fusion Technol., 38, 46 (2000).
  • D. SCHROEN, “Foam Shell Development and Production: Overcoating Process,” Final Report Task 96CR/LL2, Contract DE-AC03-95SF20732, U.S. Department of Energy (1997).

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