R
Rion A. Causey
Researcher at Sandia National Laboratories
Publications - 98
Citations - 3422
Rion A. Causey is an academic researcher from Sandia National Laboratories. The author has contributed to research in topics: Fusion power & Hydrogen. The author has an hindex of 29, co-authored 98 publications receiving 3257 citations.
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Journal ArticleDOI
Recent analysis of key plasma wall interactions issues for ITER
J. Roth,E. Tsitrone,A. Loarte,Th. Loarer,G.F. Counsell,Rudolf Neu,V. Philipps,S. Brezinsek,Michael Lehnen,P. Coad,Ch. Grisolia,Klaus Schmid,K. Krieger,A. Kallenbach,Bruce Lipschultz,R.P. Doerner,Rion A. Causey,V.K. Alimov,W. M. Shu,O. V. Ogorodnikova,A. Kirschner,Gianfranco Federici,A.S. Kukushkin +22 more
TL;DR: In this paper, different aspects of the PWI are assessed in their importance for the initial wall materials choice: CFC for the strike point tiles, W in the divertor and baffle and Be on the first wall.
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Hydrogen isotope retention and recycling in fusion reactor plasma-facing components
TL;DR: An overview of the available data on hydrogen isotope retention and recycling for beryllium, tungsten, carbon, and selected liquid metals can be found in this paper, where recommendations are made as to the most appropriate values to use for parameters such as diffusivity, solubility, recombination rate coefficient, and trapping.
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Tritium retention in tungsten exposed to intense fluxes of 100 eV tritons
TL;DR: The Tritium Plasma Experiment Experiment (TPE) has been used to examine the retention of tritium in tungsten exposed to very high fluxes of 100 eV tritons as mentioned in this paper.
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The interaction of tritium with graphite and its impact on tokamak operations
TL;DR: The state of knowledge of tritium retention in graphite and how it affects the operation of tokamak fusion reactors is reviewed in this paper, along with an assessment of the relative importance of each component for fusion reactors.
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Hydrogen isotope retention in beryllium for tokamak plasma-facing applications
Robert A. Anderl,Rion A. Causey,J.W. Davis,R.P. Doerner,G. Federici,A.A. Haasz,G. R. Longhurst,William R. Wampler,K.L. Wilson +8 more
TL;DR: In this article, the authors review experimental data regarding hydrogenic atom inventories in experiments pertinent to tokamak applications and show that with some very plausible assumptions, the experimental data appear to exhibit rather predictable trends.