Spurred by the development of high-current, high-energy relativistic electron beams, this books delves into the foundations of a device- and geometry-independent theoretical treatment of a large collection of interacting and radiating electron bunches. Covers a broad swath of topics, from the radiation emission of a single charged particle to collective behaviour of a high-density electron bunch, to application in modern sytems.
Author(s): Vyacheslav A. Buts, Andrey N. Lebedev, V.I. Kurilko
Edition: 1
Year: 2006
Language: English
Pages: 276
Contents......Page 11
Part I Radiation by Single Particles......Page 14
1.1 Basic Definitions and Terminology......Page 15
1.2 Conditions of Radiation Emission......Page 17
2 Radiation Emitted by Particle Moving Uniformly......Page 23
2.1 Vavilov–Cherenkov Radiation......Page 24
2.2 Transition Radiation......Page 34
2.3 Cherenkov Radiation in Periodic Structures......Page 39
3.1 Radiation Field......Page 49
3.2 Dipole Radiation......Page 59
3.3 Undulator Radiation......Page 61
3.4 Cyclotron Radiation......Page 64
3.5 Scattering by Free Charged Particle......Page 71
3.6 Scattering and Absorption by Bound Particle......Page 77
4 Radiation Reaction......Page 82
4.1 Conservation Laws......Page 83
4.2 Radiation Reaction and Emitter Field......Page 87
4.3 Radiation Friction and Charged Particle Dynamics Radiation Cooling......Page 90
Part II Radiation by Particles Ensembles......Page 96
5.1 Spatial Coherence......Page 98
5.2 Interference in Regular Lattices......Page 101
6 Spontaneous and Stimulated Emission......Page 106
6.1 Semiquantum Interpretation......Page 107
6.2 Classical Limit......Page 111
6.3 Stimulated Emission and Beam Phasing......Page 114
6.4 Dynamic Chaos......Page 123
7.1 Proper Waves in Beams of Interacting Particles......Page 132
7.2 Negative Energy Waves......Page 148
7.3 Kinetic Effects......Page 153
Part III Certain Modern Applications......Page 165
8 Cherenkov Radiation in Beam–Plasma Systems......Page 166
8.1 Dispersion Equation......Page 167
8.2 Cold Beam Instability......Page 169
8.3 Warm Beam Instability......Page 176
9.1 General Principles......Page 179
9.2 CRM in Small–Signal Approximation......Page 182
9.3 Particle Interaction with Large Amplitude Wave......Page 191
9.4 Nonlinear Regime of Operation......Page 207
10 Free Electron Lasers (FELs)......Page 213
10.1 FEL–oscillators. Low-Gain Regime......Page 215
10.2 FEL–Amplifier: High-Gain Regime......Page 227
10.3 SASE Mode of Operation......Page 244
11 Blowup Effect in Linear Accelerators......Page 256
References......Page 262
E......Page 265
S......Page 266
W......Page 267
