INIS
layers
100%
impurities
100%
walls
100%
iter tokamak
100%
jets
100%
deuterium
100%
divertors
100%
carbon
57%
surfaces
42%
detection
42%
plasma
28%
particles
28%
tungsten
28%
nuclear reaction analysis
28%
quartz
28%
microbalances
28%
recoils
28%
values
14%
efficiency
14%
density
14%
information
14%
data
14%
thickness
14%
interfaces
14%
energy
14%
morphology
14%
stainless steels
14%
substrates
14%
size
14%
scanning electron microscopy
14%
iron
14%
transport
14%
dusts
14%
increasing
14%
oxidation
14%
range
14%
deposition
14%
oxygen
14%
vessels
14%
depth
14%
copper
14%
ions
14%
nitrogen
14%
beryllium
14%
cooling
14%
crystals
14%
argon
14%
injection
14%
molybdenum
14%
mitigation
14%
nickel
14%
carriers
14%
x-ray spectroscopy
14%
time-of-flight method
14%
chromium
14%
neon
14%
oxygen 18
14%
inconel 600
14%
Keyphrases
ITER-like Wall
100%
Divertor
100%
Deuterium
100%
Deposition Layer
100%
Impurity Elements
100%
Nuclear Reaction Analysis
40%
Quartz Microbalance
40%
Atomic Fraction
40%
Surface Morphology
20%
Scanning Electron Microscopy
20%
Layer Thickness
20%
Tungsten
20%
Co-deposition
20%
Areal Density
20%
Beryllium
20%
In-vessel
20%
JET-ILW
20%
Argon
20%
Depth Profile
20%
Molybdenum
20%
Material Layer
20%
Strike Point
20%
Energy Dispersive X-ray Spectroscopy
20%
Elastic Recoil Detection
20%
Plasma Edge
20%
Stainless Steel
20%
Time-of-flight Elastic Recoil Detection Analysis
20%
Density Profile
20%
Carbon-free
20%
Carbon Transport
20%
Electron Energy
20%
Deposited Material
20%
Detection Efficiency
20%
Inconel
20%
Edge-cooling
20%
Dust Particles
20%
Neon
20%
Chromium Iron
20%
Inconel 600
20%
After Injection
20%
Typical Value
20%
Stratified Structure
20%
Tungsten-copper
20%
Free Layer
20%
Ion-induced
20%
Oxygen-18
20%
Detection Data
20%
Disruption Mitigation
20%
Substrate Interface
20%
Engineering
Nuclear Reaction Analysis
100%
Disruptions
50%
Material Layer
50%
Depth Profile
50%
Quartz Crystal Microbalance
50%
Layer Thickness
50%
Time-of-Flight
50%
Deposited Material
50%
Centimeter
50%
Substrate Interface
50%
Energy Engineering
50%
Component Surface
50%
Stainless Steel
50%
Surface Morphology
50%
Surface Layer
50%
Material Science
Deuterium
100%
Tungsten
40%
Inconel
40%
Surface Morphology
20%
Beryllium
20%
Chromium
20%
Dust Particle
20%
Scanning Electron Microscopy
20%
Molybdenum
20%
Density
20%
Stainless Steel
20%
Energy-Dispersive X-Ray Spectroscopy
20%
Oxidation Reaction
20%
Physics
Deuterium
100%
Nuclear Reaction
40%
X Ray Spectroscopy
20%
Surface Layers
20%
Electron Energy
20%
Scanning Electron Microscopy
20%
Oxygen 18
20%