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This book presents a comprehensive description of the physics of free-electron lasers starting from the fundamentals and proceeding through detailed derivations of the equations describing electron trajectories, and spontaneous and stimulated emission. Linear and nonlinear analyses are described, as are detailed explanations of the nonlinear simulation of a variety of configurations including amplifiers, oscillators, self-amplified spontaneous emission, high-gain harmonic generation, and optical klystrons. Theory and simulation are anchored using comprehensive comparisons with a wide variety of experiments.…mehr
This book presents a comprehensive description of the physics of free-electron lasers starting from the fundamentals and proceeding through detailed derivations of the equations describing electron trajectories, and spontaneous and stimulated emission. Linear and nonlinear analyses are described, as are detailed explanations of the nonlinear simulation of a variety of configurations including amplifiers, oscillators, self-amplified spontaneous emission, high-gain harmonic generation, and optical klystrons. Theory and simulation are anchored using comprehensive comparisons with a wide variety of experiments.
Henry Freund is a Research Professor in the ECE Department at the University of New Mexico and at the Institute for Research in Electronics and applied Physics at the University of Maryland.
Thomas M. Antonsen, Jr. is a Professor of Electrical and Computer Engineering at the University of Maryland
Inhaltsangabe
Introduction.- The Wiggler Field And Electron Dynamics.- Incoherent Undulator Radiation.- Coherent Undulator Radiation.- Stimulated Emission: Linear Theory.- Nonlinear Theory: Steady-State Analysis.- Nonlinear Theory: Time-Dependent Analysis.- Sideband Instabilities.- Wiggler Imperfections.- Coherent Harmonic Generation.- Oscillator Theory.- Oscillator Simulation.- Self-Amplified Spontaneous Emission.- Segmented Wiggler Configurations.- Optical Klystrons And High-Gain Harmonic Generation.- Electromagnetic-Wave Wigglers.- Chaos In Free-Electron Lasers.
Introduction.- The Wiggler Field And Electron Dynamics.- Incoherent Undulator Radiation.- Coherent Undulator Radiation.- Stimulated Emission: Linear Theory.- Nonlinear Theory: Steady-State Analysis.- Nonlinear Theory: Time-Dependent Analysis.- Sideband Instabilities.- Wiggler Imperfections.- Coherent Harmonic Generation.- Oscillator Theory.- Oscillator Simulation.- Self-Amplified Spontaneous Emission.- Segmented Wiggler Configurations.- Optical Klystrons And High-Gain Harmonic Generation.- Electromagnetic-Wave Wigglers.- Chaos In Free-Electron Lasers.