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Hydrogen retention in lithium on metallic walls from “in vacuo” analysis in LTX and implications for high-Z plasma-facing components in NSTX-U
R. Kaita
, M. Lucia
, J. P. Allain
, F. Bedoya
, R. Bell
,
D. Boyle
, A. Capece
, M. Jaworski
, B. E. Koel
,
R. Majeski
, J. Roszell
, J. Schmitt
, F. Scotti
, C. H. Skinner
, V. Soukhanovskii
PPPL Tokamak Expermntl Science
Chemical & Biological Engineering
Chemistry
High Meadows Environmental Institute
Mechanical & Aerospace Engineering
Princeton Materials Institute
Research output
:
Contribution to journal
›
Article
›
peer-review
22
Scopus citations
Overview
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Keyphrases
Hydrogen Retention
100%
High-Z Materials
100%
Plasma-facing Components
100%
Material Particle
30%
Material Analysis
30%
Plasma Performance
20%
Lithium Oxide
20%
Liquid Lithium Divertor
20%
Science Experiment
10%
Alpha Emission
10%
Lithium Deuteride
10%
Analysis Chamber
10%
Graphite Tile
10%
Probe System
10%
Deuterium Retention
10%
Magnetic Confinement
10%
Operational Period
10%
Metal Plasma
10%
Dissociation Temperature
10%
Lithium Compounds
10%
Physics
Plasma Facing Component
100%
Liquid Lithium
25%
Deuteride
12%
Metallic Plasmas
12%
Chemical Engineering
Plasma Facing Component
100%
Lithium Compounds
12%
Neuroscience
Lithium Compounds
100%
Material Science
Deuterium
29%
Deuterides
5%