Engineering
Dielectrics
96%
Space Charge
63%
Energy Gain
63%
Graphene
60%
Numerical Approach
48%
Nanotubes
48%
Main Characteristic
48%
Experimental Result
48%
Plane Perpendicular
48%
Numerical Study
48%
Target Material
48%
Simulation Result
48%
Carbon Nanotubes
48%
Hydrodynamic Model
48%
S-Band
48%
Phase Space
48%
Design Criterion
48%
Multistage
48%
Power Laser
48%
Modulation Instability
48%
Theoretical Investigation
48%
Harmonics
32%
Repetition Rate
32%
Limitations
27%
Momentum Equation
24%
Degree of Freedom
15%
Spin Degree
15%
Conventional Technology
15%
Beam Energy
15%
Front End
15%
Interaction Parameter
15%
Simulation Tool
15%
Detrimental Effect
15%
Magnetic Field
15%
Permanent Magnet
15%
High Resolution
15%
Free Electron
15%
Light Source
15%
Equation System
12%
Maxwell's Equation
12%
Fluid Momentum
12%
Continuity Equation
12%
Produced Gas
12%
Physics
Electron Beam
100%
Plasma Density
96%
Emittance
84%
Electron Plasma
72%
Injector
60%
Magnetic Field
60%
Protons
48%
Modulation
48%
Growth
48%
Modulation Instability
48%
Diffraction Radiation
48%
Graphene
48%
Density Distribution
48%
Proton Beams
48%
Theoretical Model
48%
Dielectrics
48%
Charged Particle
48%
Particle Beam
36%
Harmonics
32%
Laser Pulse
31%
Nonuniform Plasmas
24%
Magnetohydrodynamic Stability
24%
Solid State Plasma
15%
Plasma Frequency
15%
Frequency Modulation
15%
Electron Acceleration
15%
Dense Plasmas
15%
Ultraviolet Laser
15%
Amplitudes
12%
Energy Levels
12%
Polarimetry
12%
High Power Lasers
12%
Free Electron Lasers
12%
High Resolution
12%
Synchrotron
12%
Injection
12%
Value
12%
Space Charge
12%
Light Source
12%
Synchrotron Radiation
12%
Positron
12%
Degree of Freedom
12%
Permanent Magnet
12%
Laser Plasmas
12%
Material Science
Carbon Nanotubes
96%
Graphene
60%
Electron Diffraction
48%
Rubidium
48%
Nanocrystalline Material
48%
Electron Microscopy
48%
Plasma Density
48%
Nanotubes
48%
Cathode
48%
Hydrodynamic Model
48%
Dielectric Material
48%
Nanoribbon
15%
Thermomechanical Property
15%
Density
15%