Keyphrases
National Spherical Torus Experiment Upgrade (NSTX-U)
100%
Lithium
100%
Probe Material
100%
Plasma Behavior
100%
Material Analysis
100%
Plasma-material Interactions
54%
Surface Chemistry
36%
Plasma-wall Interaction
18%
Fusion Tokamak
18%
Plasma Facing Surface
18%
Hydrogen Retention
18%
Liquid Metal
18%
PhD Students
9%
Plasma Burning
9%
Surface Physics
9%
Boron Coating
9%
Radial Location
9%
Lithium Coating
9%
Interaction Mechanism
9%
Alloying Metals
9%
Hybrid Solid
9%
Chemically Reactive Systems
9%
High-power Operation
9%
PFC Materials
9%
Material Testing
9%
Divertor Region
9%
Energy Solutions
9%
Low Recycling
9%
Carbon-based
9%
Fusion Energy
9%
Time-resolved
9%
Long Pulse
9%
No-flow
9%
Surface Morphology
9%
Tungsten
9%
Optical Emission Spectroscopy
9%
Ion Bombardment
9%
Probe Diagnostics
9%
Liquid-solid
9%
Diagnostic Components
9%
First Plasma
9%
Slow Flow
9%
Over 40
9%
Recovery Schedule
9%
Interaction Studies
9%
Lithium Plasma
9%
Tokamak Reactor
9%
Student Thesis
9%
Hybrid Materials
9%
Surface Transport
9%
Interaction Data
9%
In Situ
9%
Plasma Discharge
9%
Reactive Surface
9%
Advanced Materials
9%
Nanostructures
9%
Current Recovery
9%
Material Design
9%
Brook
9%
Advanced Diagnostics
9%
Surface Retention
9%
Refractory Alloys
9%
Design Futures
9%
Fusion Reactor
9%
Engineering
Plasma-Materials Interaction
100%
Facing Surface
50%
Renewals
33%
Alloy
16%
Reactive System
16%
Ion Implantation
16%
Liquid System
16%
Nuclear Reactor
16%
Probe Surface
16%
Fusion Energy
16%
Nanocomposite
16%
Review Article
16%
Material Science
Lithium
100%
Liquid Metal
18%
Refractory Alloys
9%
Tungsten
9%
Advanced Material
9%
Hybrid Material
9%
Materials Design
9%
Emission Spectroscopy
9%
Boron
9%