| Preface |
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v | |
| Foreword |
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ix | |
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An introduction to the theory of charged particle transport |
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1 | (34) |
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Summary of the properties of relativistic particles |
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1 | (5) |
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Introducing the basic elements of a transport system |
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6 | (4) |
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6 | (1) |
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6 | (4) |
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Transport system and phase-space evolution |
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10 | (5) |
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The synchrotron magnet and the Dispersion function |
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15 | (4) |
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Transverse motion coupling and sextupole magnets |
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19 | (1) |
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Periodicity conditions on circular transport and motion stability conditions |
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20 | (4) |
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Chromaticity, resonances and concluding remarks |
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24 | (4) |
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28 | (7) |
| A Bending magnets and magnetic lenses |
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35 | (4) |
| B Treatment of charged beam transport using Lie algebra |
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39 | (314) |
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Generalities on synchrotron radiation |
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45 | (36) |
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45 | (5) |
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Lienard-Wiechert potentials |
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50 | (3) |
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Spectral properties of the synchrotron radiation |
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53 | (4) |
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Damping and beam equilibrium conditions |
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57 | (7) |
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The Fokker-Planck treatment of the longitudinal equilibrium problem |
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64 | (2) |
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Synchrotron radiation from magnetic undulators |
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66 | (5) |
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71 | (3) |
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74 | (7) |
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Generalities on Free Electron Lasers |
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81 | (38) |
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Introduction and low gain equations |
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81 | (7) |
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88 | (7) |
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95 | (5) |
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Storage Ring FEL dynamics |
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100 | (3) |
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FEL Optical Klystron devices |
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103 | (4) |
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107 | (5) |
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112 | (7) |
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Optical systems in the geometrical and wave optics framework |
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119 | (30) |
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119 | (3) |
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122 | (10) |
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Quadratic Hamiltonian and optical ray matrices |
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132 | (7) |
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Quadratic Hamiltonians and optical propagators |
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139 | (6) |
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145 | (4) |
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Wigner distribution and synchrotron radiation sources |
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149 | (30) |
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149 | (2) |
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Optical Wigner distribution function |
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151 | (6) |
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Moments of Wigner distribution function and phase space ellipse |
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157 | (10) |
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Optical characteristics of synchrotron radiation sources |
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167 | (9) |
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176 | (3) |
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Synchrotron radiation sources, insertion devices and beam current limitations |
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179 | (38) |
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179 | (3) |
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182 | (1) |
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Wiggler and bending magnets |
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183 | (3) |
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Polarization characteristics of insertion devices |
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186 | (5) |
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191 | (6) |
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Effect of the insertion device on the beam parameters |
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197 | (3) |
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200 | (17) |
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201 | (1) |
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202 | (2) |
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204 | (13) |
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Constructing and measuring insertion devices |
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217 | (20) |
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217 | (2) |
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Rare hearth permanent magnets |
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219 | (3) |
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Measuring techniques for PM blocks |
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222 | (6) |
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Magnetic field correcting techniques |
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228 | (1) |
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Magnetic field measurements |
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229 | (8) |
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Free Electron Lasers as insertion devices |
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237 | (50) |
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237 | (1) |
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FEL oscillator brightness |
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238 | (5) |
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FEL Storage Ring brightness |
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243 | (3) |
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246 | (2) |
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Emission by a prebunched e-beam |
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248 | (7) |
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Self-induced higher order generation |
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255 | (9) |
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Self-induced harmonic generation in Storage Rings |
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264 | (5) |
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Storage-Ring FELs and longitudinal instabilities |
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269 | (6) |
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Harmonic generation and FEL devices operating at short wave-lengths |
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275 | (6) |
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Fourth generation synchrotron radiation sources: Linacs or Storage Rings |
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281 | (6) |
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Synchrotron radiation beam lines: X-ray optics |
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287 | (66) |
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287 | (8) |
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Role of X-ray optics: preservation of the source brightness and emittance |
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295 | (1) |
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296 | (12) |
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308 | (11) |
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319 | (6) |
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325 | (21) |
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X-rays from synchrotron radiation sources: some applications |
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346 | (5) |
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351 | (1) |
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351 | (2) |
| Index |
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353 | |
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