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Fusion Technology Volume 24, 1993 - Issue 3
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Technical Paper

Transmutation of 90Sr by Inertial Confinement Fusion

Hirofumi TakashitaPower Reactor and Nuclear Fuel Development Corporation, Tokai Works Nuclear Fuel Technology Development Division, Tokai-mura, Ibaraki-ken, Japan
&
Kenji KonashiPower Reactor and Nuclear Fuel Development Corporation, Tokai Works Nuclear Fuel Technology Development Division, Tokai-mura, Ibaraki-ken, Japan
Pages 269-276 | Published online: 09 May 2017

References

  • S. TOYAMA et al., “Transmutation of Long-Lived Fission Product (137Cs, 90Sr) by a Reactor-Accelerator System,” Proc. 2nd Int. Symp. Advanced Nuclear Energy Research, Mito, Japan, January 24–26, 1990, p. 87 (1990).
  • M. TAUBE, “The Transmutation of Strontium-90 and Cesium-137 in a High-Flux Fast Reactor with a Thermalized Central Region,” Nucl. Sci. Eng., 61, 212 (1976).
  • K. J. SCHNEIDER and A. M. PLATT, “High-Level Radioactive Waste Management Alternatives,” BNWL-1900, Vol. 4, Battelle Pacific Northwest Laboratory (1974).
  • J. W. WACHTER and A. G. CROFF, “Actinide Partitioning-Transmutation Program Final Report. III. Transmutation Studies,” ORNL/TM-6983, Oak Ridge National Laboratory (1980).
  • H. TAKAHASHI, N. MIZOO, and M. STEINBERG, “Use of the Linear Accelerator for Incinerating the Fission Products of 137Cs and Sr,” BNL-28779, Brookhaven National Laboratory (1980).
  • T. KASE et al., “Transmutation of 137Cs Using Muon Catalyzed Fusion Reaction,” Muon Catalyzed Fusion, 516, 521 (1990/91).
  • L. A. McVEY, R. I. BRZODZINSKI, and T. M. TANNER, “In Situ Neutron Activation Analysis of and the Neutron Capture Cross-Section for 90Sr,” J. Radioanal. Chem., 76, 131 (1983).
  • H. HARADA et al., “Measurement of Thermal-Neutron Cross Section of the 90Sr(n,7)91Sr Reaction,” to be published in J. Nucl. Sci. Tech.
  • J. KASAGI, Private Communication (1989).
  • H. MAKOWITZ, J. R. POWELL, and R. WISWALL, “Hyperfuse: A Novel Inertial Confinement System Utilizing Hypervelocity Projectiles for Fusion Energy Production and Fission Waste Transmutation,” presented at 2nd Int. Conf. Emerging Nuclear Energy Systems, Lausanne, Switzerland, April 8–11, 1980.
  • K. KONASHI et al., “New Transmutation Method by Using Moving Target,” Fusion Technol., 20, 664 (1991).
  • H. HARADA, H. TAKAHASHI, K. KONASHI, and N. SASAO, “Incineration of 90Sr and 137Cs by an Inertial Fusion Target,” Nucl. Instrum. Methods A, 322, 286 (1992).
  • C. YAMANAKA, “Recent Inertial Fusion Research at Osaka,” Fusion Technol., 20, 769 (1991); see also C. YAMANAKA, “Advances in Inertial Confinement Fusion,” Proc. 5th Int. Conf. Emerging Nuclear Energy Systems, Karlsruhe, Germany, July 3–6, 1989, p. 125 (1989).
  • F. L. RIBE, “Fusion Reactor Systems,” Rev. Mod. Phys., 47, 7 (1975).
  • K. MIMA et al., “Pellet and Reactor Chamber Designs for High Gain Laser Fusion,” Proc. 13th Int. Conf. Plasma Physics and Controlled Nuclear Fusion Research, Washington, D.C., October 1–6, 1990, Vol. 3, p. 165.
  • K. A. BRUECKNER and S. JORNA, “Laser-Driven Fusion,” Rev. Mod. Phys., 46, 325 (1974).

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