Keyphrases
Tungsten
85%
Irradiation
58%
Dislocation Loops
52%
Transmission Electron Microscopy
47%
Ion Irradiation
45%
Microstructure
39%
Bubble Lattice
33%
Helium Ions
32%
In-situ Ion Irradiation
30%
In Situ
29%
Displacement Damage
28%
In Situ Transmission Electron Microscopy
28%
Tantalum
28%
Ion Beam
21%
Transmission Electron Microscope
20%
Radiation Effects
20%
Nanostructures
19%
He Ion Irradiation
17%
Helium Concentration
17%
Amorphization
16%
He Ions
16%
Lattice of Formations
14%
In Situ Experiment
14%
Nuclear Materials
14%
Precipitate Dissolution
14%
Damage Accumulation
14%
Xenon
14%
Non-equilibrium Conditions
14%
Helium Accumulation
14%
Thermal Evolution
14%
Reactor
14%
Defect Accumulation
14%
Loop Length
14%
Irradiation Temperature
14%
Proton Damage
14%
Electron Microscopy Studies
14%
Nanowires
14%
Proton
14%
Structural Defects
14%
In Situ Transmission Electron Microscope
14%
Temperature Effect
14%
Helium Bubbles
14%
Zr-Nb Alloy
14%
Germanium Nanowire (GeNW)
14%
Radiation Dose
13%
Self-interstitial Atom
11%
Solubility Limit
11%
Waste Form
11%
Dislocation
11%
Bubble Diameter
10%
Proton Irradiation
9%
Annealing
9%
Room Temperature
9%
Bubble Size
9%
Helium
8%
Free Samples
7%
Reactor Temperature
7%
Fusion Reactor
7%
Ta Alloying
7%
Solute Trapping
7%
In-situ Annealing
7%
Gliding
7%
Trapping Mechanisms
7%
Void Growth
7%
Microstructural Effects
7%
Macroscopic Properties
7%
Competing Mechanisms
7%
Beam Selection
7%
Radiation Damage Effects
7%
Interstitial Loops
7%
Material Properties
7%
Sample Preparation
7%
Complex Dynamics
7%
Temperature Range
7%
Dynamic Process
7%
Low Fluence
5%
Alpha Particles
5%
Defect Morphology
5%
Glass-ceramics
5%
Physical Dimension
5%
Structural Materials
5%
Engineering
Dislocation Loop
64%
Interstitial Atom
21%
Nanoscale
21%
Bubble Diameter
19%
Structural Materials
14%
Nuclear Material
14%
Solubility Limit
14%
Interstitial Loop
14%
Macroscopic Property
14%
Alpha Particle
14%
Combined Effect
14%
Crystalline Silicon
14%
Dynamic Recovery
14%
Lesser Extent
14%
Temperature Increase
14%
Radiation Effect
14%
Structural Defect
14%
Room Temperature
14%
Nanomaterial
14%
Superlattice
14%
Engineering
14%
Helium Bubble
14%
Electron Diffraction
14%
Dynamic Process
14%
Bubble Size
11%
Greenhouse Gas
7%
Ion Energy
7%
Thin Foil
7%
Alkalis Content
7%
Baseload
7%
Carrier Concentration
7%
Site Vacancy
7%
Parameter Space
7%
Polycrystalline Material
7%
Extended Defect
7%
Structural Strength
7%
Ceramics and Glass
7%
Degree Celsius
7%
Direct Observation
7%
Safe Disposal
7%
Ceramic Interface
7%
Self-Organization
7%
Energetics
7%
Electron Energy
7%
Nuclear Energy
7%
Fusion Reactor
7%
Form Void
7%
Void Growth
7%
Excess Vacancy
7%
Energy dispersive spectrometry
7%
Energy Dissipation
7%
Safe Operation
7%
Enhanced Diffusion
7%
Nuclear Reactor
7%
Nanoclusters
7%
Atom Probe Tomography
7%
Hydrogen Isotope
7%
Irradiated Material
7%
Dislocation Structure
7%
Loop Length
7%
Electricity Generation
7%
Beam Energy
7%
Damage Level
7%
Sample Surface
7%
Ion Implantation
7%
Temperature Range
7%
Two Dimensional
7%
Early Stage
7%
Gas Bubble
7%
Observables
7%
Material Science
Ion Bombardment
100%
Tungsten
71%
Transmission Electron Microscopy
64%
Tantalum
28%
Nanostructure
17%
Amorphization
16%
Glass Ceramic
14%
Superlattice
14%
Point Defect
14%
Silicon
14%
Building Material
14%
Proton Irradiation
14%
Germanium
14%
Nanowire
14%
Annealing
14%
Radiation Damage
7%
Tomography
7%
Neutron Irradiation
7%
Polycrystalline Material
7%
Electron Energy Loss Spectrometry
7%
Tantalum Alloys
7%
Void Growth
7%
Greenhouse Gas
7%
Nucleation
7%
Gas Emission
7%
Atom Probe
7%
Burger Vector
7%
Carrier Concentration
7%
Crystal Defect
7%
Radioactive Waste
7%
Dislocation Structure
7%
Nanoclusters
7%
Surface (Surface Science)
7%
Density
7%