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El. knyga: Novel Radiation Sources Using Relativistic Electrons: From Infrared To X-rays

(Univ Claude Bernard, France), (European Commission, Joint Res Ctr, Inst For Reference Materials & Measurements, Belgium), (Lure, France)
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Novel Radiation Sources Using Relativistic Electrons: From Infrared To X-raysDidesnis paveikslėlis
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The purpose of this book is to give a description of the state of the art in theoretical and experimental work achieved in radiation source development. It summarizes clearly and comprehensibly, the basic physical aspects needed to understand the phenomena, and also provides the interested reader with sufficient literature to be able to follow the development in more detail. In addition, it contains a unified view of most theoretical effects and their common properties. The most recent developments as well as references to further work can be found in this volume. In many cases, review articles and textbooks published in specialized areas are also incorporated into the text.
Preface v
1. Introduction
1(36)
1.1 The first century of X-rays
1(8)
1.2 From plasma sources to X-UV lasers
9(12)
1.3 From synchrotron radiation to free-electron-lasers
21(10)
1.4 The novel radiation sources
31(6)
2. Radiation by Relativistic Electrons
37(34)
2.1 Classification of the emission mechanisms
37(3)
2.2 Basic formalism
40(6)
2.3 Characteristic parameters
46(3)
2.4 Quantum effects
49(2)
2.5 Resonance phenomena in periodic structures
51(4)
2.6 The Weizsacker-Williams method of quasireal photons
55(8)
2.7 Classical sum rules
63(2)
Appendix
65(6)
3. Synchrotron Radiation, Undulators, Free-Electron Lasers
71(18)
3.1 Synchrotron radiation
71(2)
3.2 Wigglers and undulators
73(8)
3.3 Free-electron lasers
81(8)
4. Compton Scattering of Laser Light
89(10)
4.1 Introduction
89(1)
4.2 Relativistic kinematics
90(4)
4.3 Back-scattering of laser light
94(1)
4.4 Compton scattering at 90(degree)
95(4)
5. Coherent Bremsstrahlung
99(14)
5.1 Introduction
99(2)
5.2 Coherent bremsstrahlung in Born approximation
101(9)
5.3 Validity of the Born approximation
110(3)
6. Channeling Radiation
113(14)
6.1 Introduction
113(1)
6.2 Planar channeling
114(7)
6.3 Band structure calculations
121(1)
6.4 Axial channeling
122(3)
6.5 Summary
125(2)
7. Transition Radiation
127(16)
7.1 Introduction
127(1)
7.2 Transition radiation at a boundary
128(3)
7.3 X-ray transition radiation from a thin foil
131(3)
7.4 X-ray transition radiation from a stack of foils
134(2)
7.5 Optical transition radiation
136(4)
7.6 Summary
140(3)
8. Parametric X-Rays
143(18)
8.1 Introduction
143(1)
8.2 Bragg diffraction of virtual photons
143(4)
8.3 Kinematical approach
147(7)
8.4 Dynamical theory
154(3)
8.5 Corrections to the spectral-angular distribution
157(4)
9. Smith-Purcell Effect
161(18)
9.1 Introduction
161(1)
9.2 General formalism
162(4)
9.3 Solutions of the grating problem
166(3)
9.4 Spectral-angular distributions
169(6)
9.5 The Smith-Purcell free-electron-laser and the inverse Smith-Purcell effect
175(4)
10. Photon beam characteristics
179(20)
10.1 Generalities
179(7)
10.2 Qualitative properties of the novel X-ray sources
186(6)
10.3 Quantitative comparison of radiation sources
192(5)
10.4 Conclusion
197(2)
Index 199


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