Evolution of a finite pulse of radiation in a high-power free-electron laser. Memorandum report
The development of an optical pulse of finite axial extent is studied by means of an axisymmetric, time-dependent, particle simulation code for different rates of tapering of the wiggler field. The results illustrate a number of the physical phenomena underlying the free-electron laser mechanism. These include: suppression of the sideband instability; the role of gain focusing versus that of refractive guiding; efficiency enhancement; and pulse slippage. It is found that a significant reduction in the sideband modulation of the optical field can be achieved with a faster tapering of the wiggler parameters. Increasing the tapering rate also reduces refractive guiding, causing the optical wavefronts to become more convex, thus spreading the optical field into a large cross-section. The corresponding enhancement of the peak output power is associated with an increased lateral extent of the optical field rather than an increase in the field amplitude. (Author)
- Research Organization:
- Naval Research Lab., Washington, DC (United States)
- OSTI ID:
- 5334582
- Report Number(s):
- AD-A-237427/0/XAB; NRL-MR-6844
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
FREE ELECTRON LASERS
COMPUTERIZED SIMULATION
COMPUTER CODES
CROSS SECTIONS
FOCUSING
GAIN
MODULATION
OPTICAL PROPERTIES
OPTIMIZATION
PARTICLES
PHYSICAL PROPERTIES
PULSES
SIMULATION
STABILITY
TIME DEPENDENCE
WIGGLER MAGNETS
AMPLIFICATION
ELECTRICAL EQUIPMENT
ELECTROMAGNETS
EQUIPMENT
LASERS
MAGNETS
426002* - Engineering- Lasers & Masers- (1990-)