Free-electron Lasers |
Contents
Basic Theory | 51 |
Onedimensional Solutions | 100 |
Nonuniform Wigglers | 205 |
Copyright | |
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Common terms and phrases
acceleration gradient accelerator cavity amplitude approximation average betatron boundary conditions bucket bunch buncher cathode Chapter computed conventional lasers corresponding current density dielectric dimensionless discussed effects efficiency electric field electron beam electron energy electron lasers electron-beam current emittance energy spread equation expression focusing formula free-electron lasers frequency function gain medium given harmonics IEEE illustrated in Fig index of refraction Inst integral intensity interaction J. D. Jackson laser beam longitudinal mode magnetic field Meth microtron mirror modulated Nucl obtain optical beam optical field optical klystron optical pulse oscillations parameters Particle peak phase plane phase shift phase space Phys potential radius reflectance resonator rf linacs rf power saturated shown in Fig small-signal gain spectrum SPIE spontaneous emission standing-wave storage rings structure superconducting surface synchrotron motions tapered wiggler trajectory transverse mode travelling-wave typically uniform wiggler velocity wavelength wiggler field wiggler length wiggler period