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Particle Accelerator Physics

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Part I Introduction.- Introduction to Accelerator Physics.- Linear Accelerators.- Circular Accelerators.- Part II Tools we need.- Elements of Classical Mechanics.- Particle Dynamics in Electromagnetic Fields.- Electromagnetic Fields.- Part III Beam Dynamics.- Single Particle Dynamics.- Particle Beams and Phase Space.- Longitudinal Beam Dynamics.- Periodic Focusing Systems.- Part IV Beam Parameters.- Vlasov and Fokker-Planck Equations.- Equilibrium Particle Distribution.- Beam Emittance and Lattice Design.- Part V Perturbations.- Perturbations in Beam Dynamics.- Hamiltonian Resonance Theory.- Hamiltonian Nonlinear Beam Dynamics.- Part VI Acceleration.- Charged Particle Acceleration.- Beam-Cavity Interaction.- Part VII Coupled Motion.- Dynamics of Coupled Motion.- Part VIII Intense Beams.- Statistical and Collective Effects.- Wake Fields and Instabilities.- Part IX Synchrotron Radiation.- Fundamental Processes.- Overview of Synchrotron Radiation.- Theory of Synchrotron Radiation.- Insertion Device Radiation.- Free Electron Lasers.- Part X Appendices.- Useful Mathematical Formulae.- Physical Formulae and Parameters.- References.- Index.

1052 pages, Paperback

Published July 30, 2015

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