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Fusion energy: Progress, partnerships, and the path to deployment
Over the past decade, fusion energy has moved decisively from scientific aspiration toward a credible pathway to a new energy technology. Thanks to long-term federal support, we have significantly advanced our fundamental understanding of plasma physics—the behavior of the superheated gases at the heart of fusion devices. This knowledge will enable the creation and control of fusion fuel under conditions required for future power plants. Our progress is exemplified by breakthroughs at the National Ignition Facility and the Joint European Torus.
Benny L. Boggs, R. Lewis Steinhoff
Fusion Science and Technology | Volume 28 | Number 3 | October 1995 | Pages 538-543
Tritium Processing | Proceedings of the Fifth Topical Meeting on Tritium Technology in Fission, Fusion, and Isotopic Applications Belgirate, Italy May 28-June 3, 1995 | doi.org/10.13182/FST95-A30458
Articles are hosted by Taylor and Francis Online.
With the end of the Cold War and the signing of strategic arms agreements between the U.S. and Russia, the need for a large nuclear stockpile has dramatically decreased. However due to the natural decay (5.5%/year) of tritium, it is still necessary to produce tritium to maintain the much smaller nuclear stockpile. Since the shutdown of the K-Reactor at the Savannah River Site, the U.S. has not had a tritium producing facility in operation, thus a new production facility is needed. One option for producing tritium employs the use of a linear proton accelerator.
