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DTRA’s advancements in nuclear and radiological detection
A new, more complex nuclear age has begun. Echoing the tensions of the Cold War amid rapidly evolving nuclear and radiological threats, preparedness in the modern age is a contest of scientific innovation. The Research and Development Directorate (RD) at the Defense Threat Reduction Agency (DTRA) is charged with winning this contest.
J. Reece Roth
Fusion Science and Technology | Volume 8 | Number 1 | July 1985 | Pages 651-656
Plasma Engineering | Proceedings of the Sixth Topical Meeting on the Technology of Fusion Energy (San Francisco, California, March 3-7, 1985) | doi.org/10.13182/FST85-A40114
Articles are hosted by Taylor and Francis Online.
The characteristics of a fusion reactor and the physical processes occuring in the plasma interact in a complex way to establish limits on the ion number density, kinetic temperature, and containment time within which net power production is possible. These limits on the plasma parameters are determined for an idealized fusion reactor which illustrates the interplay of important constraining factors. This model defines, to a moderately good approximation, the performance envelope within which fusion reactors must operate.
