R. B. Campbell
Lawrence Livermore National Laboratory
9 Papers
53 Citations
R. B. Campbell is an academic researcher from Lawrence Livermore National Laboratory. The author has contributed to research in topics: Fusion power & Tokamak. The author has an hindex of 5, co-authored 9 publications.
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Papers
Advanced Fusion MHD Power Conversion Using the CFAR Cycle Concept
TL;DR: The unique features of the CFAR cycle and a high-temperature blanket designed to take advantage of it as well as the predicted performance of the MHD disk generators using mercury seeded with cesium are described.
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Plasma Engineering for Minimars: A Small Commercial Tandem Mirror Reactor with Octopole Plugs
TL;DR: In this article, the authors examined the plasma engineering design of MINIMARS, a small compact fusion reactor based on the tandem mirror principle, which was expressly designed for short construction times, factory built modules, and a passively safe blanket system.
Projections for a steady-state tokamak reactor based on the international thermonuclear experimental reactor
R. Stephen Devoto,W. L. Barr,R. H. Bulmer,R. B. Campbell,Max E. Fenstermacher,J. D. Lee,B. Grant Logan,J.R. Miller,Louis L. Reginato,Robert A. Krakowski,Ronald L. Miller,O. A. Anderson,W. S. Cooper,J.H. Schultz,James J. Yugo,Joel H. Fink,Yousry Gohar +16 more
TL;DR: In this paper, the authors examined the extensions of the physics and engineering guidelines for the International Thermonuclear Experimental Reactor (ITER) device needed for acceptable operating points for a steady-state tokamak power reactor.
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Projections for a steady-state tokamak reactor based on ITER
R. S. Devoto,W. L. Barr,R. H. Bulmer,R. B. Campbell,Max E. Fenstermacher,J. D. Lee,B.G. Logan,J.R. Miller,L.L. Reginato,R.A. Krakowski +9 more
- 20 Jul 1989
TL;DR: In this article, the authors examined the extensions of the physics and engineering guidelines for the ITER device needed for acceptable operating points for a steady-state tokamak power reactor and examined the design re-optimization on the basis of cost-of-electricity (COE).
A Study of “Cold Fusion” in Deuterated Titanium Subjected to High-Current Densities
R. B. Campbell,L. John Perkins +1 more
TL;DR: In this paper, the authors examined the role of high current densities in producing neutrons and excess heat in deuterated titanium maintained near ambient temperatures and pressures and concluded that the large quantity of excess heat reported by Fleischmann and Pons is due to the presence of factors other than the current density.
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