## Free-electron LasersFree-Electron Lasers is a survey work suitable for a free-electron laser course at the graduate level and for workers new to the field coming from laser, accelerator, or other backgrounds. Introduces free-electron lasers and electron accelerators**Contains useful references for basic formulas, which can be a starting point for research |

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### Contents

Basic Theory | 51 |

Onedimensional Solutions | 100 |

Threedimensional Effects | 150 |

Copyright | |

3 other sections not shown

### Common terms and phrases

1+aw amplitude approximation average B. E. Newnam betatron bucket bunch buncher C. A. Brau Chapter Coherent Radiation computed conventional lasers corresponds current density described devices dimensionless discussed distribution effects efficiency electric field electron beam electron energy electron lasers electron motions electron-beam current emittance energy spread expression focusing formula free-electron lasers frequency function harmonics IEEE illustrated in Fig index of refraction Inst integral intensity interaction J. D. Jackson laser beam laser field lasers operating linacs Madey magnetic field Meth microtron mirrors modulator Nucl obtain optical beam optical field optical klystron optical pulse optical resonator oscillations parameters particles peak phase plane phase shift phase space Phys potential quantum radius reflectance result rf linacs saturated shown in Fig small-signal gain spectrum SPIE spontaneous emission storage rings superconducting tapered wiggler trajectory transverse mode typically uniform wiggler velocity wavelength wiggle wiggler axis wiggler field wiggler length wiggler period