INIS
applications
11%
asdex tokamak
53%
beryllium
13%
breakdown
30%
carbon
15%
carbon 13
11%
coatings
32%
comparative evaluations
18%
density
19%
deposition
43%
deposits
11%
detection
11%
deuterium
41%
devices
11%
divertors
58%
edge localized modes
20%
energy
12%
erosion
40%
first wall
33%
fuels
20%
gases
11%
h-mode plasma confinement
18%
heating
11%
helium
19%
impurities
23%
ions
36%
iter tokamak
61%
jet tokamak
11%
jets
69%
l-mode plasma confinement
14%
lasers
45%
layers
25%
migration
14%
modeling
16%
nitrogen
13%
operation
29%
particles
12%
performance
14%
physics
15%
plasma
100%
plasma scrape-off layer
10%
power
18%
retention
35%
simulation
14%
spectroscopy
33%
surfaces
41%
tokamak devices
41%
transport
25%
tungsten
44%
walls
42%
Keyphrases
ASDEX Upgrade
53%
Beryllium
14%
Deposition Layer
13%
Deuterium
31%
Deuterium Retention
10%
Divertor
40%
Divertor Tiles
13%
Fuel Retention
19%
Fusion Devices
10%
H-mode
16%
Helium
17%
Impurities
12%
ITER-like Wall
19%
Joint European Torus
11%
L-mode
18%
Laser-induced Breakdown Spectroscopy
31%
Net Erosion
16%
Outer Divertor
12%
Plasma-facing Components
30%
Scrape-off Layer
14%
Secondary Ion Mass Spectrometry
12%
Strike Point
13%
Tokamak
37%
Tungsten
29%