Skip to main navigation
Skip to search
Skip to main content
Tel Aviv University Home
Update Request & User Guide (TAU staff only)
Home
Experts
Research units
Research output
Datasets
Prizes
Activities
Press/Media
Search by expertise, name or affiliation
A linear three-dimensional model for free electron laser amplifiers
E. Jerby
*
,
A. Gover
*
Corresponding author for this work
School of Electrical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
10
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'A linear three-dimensional model for free electron laser amplifiers'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Dispersion Equation
100%
Electromagnetic Waves
100%
Electron Beam
100%
Three Dimensional Model
100%
Free Electron Laser
100%
Gain Dispersion
100%
Laser Amplifiers
100%
Three-dimensional Effect
50%
Wave Phase
50%
Wave Amplitude
50%
Space Charge
50%
Longitudinal Velocity
50%
Phase Profile
50%
Free Space
50%
Amplitude Profiles
50%
Angular Spectrum
50%
3D Model
50%
FEL Oscillator
50%
Space Charge Effect
50%
Rectangular Waveguide
50%
High Gain
50%
Transverse Profile
50%
Low Gain
50%
Optical Guiding
50%
Interaction Region
50%
Energy Spread
50%
Radiation Beam
50%
Betatron
50%
High-gain Regime
50%
Velocity Spread
50%
Transverse Emittance
50%
Spreading Effect
50%
Engineering
Space Charge
100%
Amplifier
100%
Three-Dimensional Models
100%
Gain Matrix
100%
Dispersion Equation
100%
Free Electron
100%
Longitudinal Velocity
50%
Free Space
50%
Waveguide
50%
Parameter Set
50%
Interaction Region
50%
Beam Radiation
50%
Bending Effect
50%
Physics
Free Electron Lasers
100%
Space Charge
100%
Three Dimensional Models
100%
Electron Beam
100%
Betatron
50%
Rectangular Waveguide
50%
Emittance
50%
Beams (Radiation)
50%