Ebook: The Theory of Coherent Radiation by Intense Electron Beams
- Tags: Particle Acceleration and Detection Beam Physics, Classical Electrodynamics Wave Phenomena
- Series: Particle Acceleration and Detection
- Year: 2006
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
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. Part I deals with the basics of the radiation emission of a single charged particle, paying particular attention to the effect of radiation reaction and dwelling on the corresponding well-known paradoxes. Part II investigates the collective behaviour of a high-density electron bunch where both discrete and continous beam modelling is explored. Part III treats the application to modern systems while still keeping the treatment as general as possible.
This book will be mandatory reading for anyone working on the foundations of modern devices such as free electron lasers, plasma accelerators, synchroton sources and other modern sources of bright, coherent radiation with high spectral density.
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. Part I deals with the basics of the radiation emission of a single charged particle, paying particular attention to the effect of radiation reaction and dwelling on the corresponding well-known paradoxes. Part II investigates the collective behaviour of a high-density electron bunch where both discrete and continous beam modelling is explored. Part III treats the application to modern systems while still keeping the treatment as general as possible.
This book will be mandatory reading for anyone working on the foundations of modern devices such as free electron lasers, plasma accelerators, synchroton sources and other modern sources of bright, coherent radiation with high spectral density.
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. Part I deals with the basics of the radiation emission of a single charged particle, paying particular attention to the effect of radiation reaction and dwelling on the corresponding well-known paradoxes. Part II investigates the collective behaviour of a high-density electron bunch where both discrete and continous beam modelling is explored. Part III treats the application to modern systems while still keeping the treatment as general as possible.
This book will be mandatory reading for anyone working on the foundations of modern devices such as free electron lasers, plasma accelerators, synchroton sources and other modern sources of bright, coherent radiation with high spectral density.
Content:
Front Matter....Pages I-XIII
Front Matter....Pages I-XIII
Synchronous Wave–Particle Interaction....Pages 3-10
Radiation Emitted by Particle Moving Uniformly....Pages 11-36
Microwave Bremsstrahlung....Pages 37-69
Radiation Reaction....Pages 71-84
Front Matter....Pages I-XIII
Coherence of Individual Emitters....Pages 89-96
Spontaneous and Stimulated Emission....Pages 97-122
Proper Waves in Flows of Charged Particles....Pages 123-155
Front Matter....Pages I-XIII
Cherenkov Radiation in Beam–Plasma Systems....Pages 159-171
Cyclotron Resonance Masers (CRM)....Pages 173-206
Free Electron Lasers (FELs)....Pages 207-249
Blowup Effect in Linear Accelerators....Pages 251-255
Back Matter....Pages 257-263
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. Part I deals with the basics of the radiation emission of a single charged particle, paying particular attention to the effect of radiation reaction and dwelling on the corresponding well-known paradoxes. Part II investigates the collective behaviour of a high-density electron bunch where both discrete and continous beam modelling is explored. Part III treats the application to modern systems while still keeping the treatment as general as possible.
This book will be mandatory reading for anyone working on the foundations of modern devices such as free electron lasers, plasma accelerators, synchroton sources and other modern sources of bright, coherent radiation with high spectral density.
Content:
Front Matter....Pages I-XIII
Front Matter....Pages I-XIII
Synchronous Wave–Particle Interaction....Pages 3-10
Radiation Emitted by Particle Moving Uniformly....Pages 11-36
Microwave Bremsstrahlung....Pages 37-69
Radiation Reaction....Pages 71-84
Front Matter....Pages I-XIII
Coherence of Individual Emitters....Pages 89-96
Spontaneous and Stimulated Emission....Pages 97-122
Proper Waves in Flows of Charged Particles....Pages 123-155
Front Matter....Pages I-XIII
Cherenkov Radiation in Beam–Plasma Systems....Pages 159-171
Cyclotron Resonance Masers (CRM)....Pages 173-206
Free Electron Lasers (FELs)....Pages 207-249
Blowup Effect in Linear Accelerators....Pages 251-255
Back Matter....Pages 257-263
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