High gain, high power free electron laser : physics and application to TeV particle acceleration : proceedings of the I.N.F.N. International School on Electromagnetic Radiation and Particle Beams Acceleration, Varenna, Italy, June 20-25, 1988 /

During the past few years the physics and technology of charged particle beams on which electron-positron linear colliders in the TeV region, storage rings from synchrotron radiation sources and Free Electron Lasers are based, has seen a remarkable development. The purpose of this series of schools...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores Corporativos: I.N.F.N. International School on Electromagnetic Radiation and Particle Beams Acceleration Varenna, Italy, Istituto nazionale de fisica nucleare
Otros Autores: Bonifacio, R., De Salvo Souza, L. (Lucia), Pellegrini, C.
Formato: Electrónico Congresos, conferencias eBook
Idioma:Inglés
Publicado: Amsterdam ; New York : New York, N.Y., U.S.A. : North-Holland ; Sole distributors for the U.S.A. and Canada, Elsevier Science Pub. Co., 1989.
Colección:North-Holland delta series.
Temas:
Particle beams > Congresses.
Particle acceleration > Congresses.
Faisceaux de particules > Congr�es.
Particules (Physique nucl�eaire) > Acc�el�eration > Congr�es.
Particle acceleration
Particle beams
Freie-Elektronen-Laser
Kongress
Free-electron lasers
Congress
proceedings (reports)
Conference papers and proceedings
Conference papers and proceedings.
Actes de congr�es.
Varenna (1988)
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; High Gain, High Power Free Electron Laser: Physics and Application to TeV Particle Acceleration; Copyright Page; INTRODUCTION; Table of Contents; LIST OF PARTICIPANTS; CHAPTER 1. A HIGH BRIGHTNESS ELECTRON ACCELERATOR AND ITS PARTICLE BEAM PHYSICS EXPERIMENTAL PROGRAM; 1. INTRODUCTION; 2. GENERAL DESCRIPTION OF THE ATF; 3. RF GUN; 4. THE LINAC; 5. LASER SYSTEM; 6. THE ATF EXPERIMENTAL PROGRAM; REFERENCES; CHAPTER 2. EMITTANCE GROWTH IN LASER-DRIVEN RF ELECTRON GUNS; 1. INTRODUCTION; 2. ANALYSIS OF RF EFFECTS; 3. ANALYSIS OF THE SPACE-CHARGE EFFECTS; 4. COMPARISON WITH SIMULATION
  • 5. CONCLUSIONSACKNOWLEDGEMENTS; REFERENCES; CHAPTER 3. One-Dimensional Theory of a Free-Electron Laser Amplifier: Steady-State and Superradiance; 1. INTRODUCTION; 2. INTRODUCTION TO FEL PHYSICS; 3. ONE-DIMENSIONAL PEL EQUATIONS AND THE ""UNIVERSAL"" SCALING; 4. STEADY-STATE: COMPTON AND RAMAN REGIMES, LINEAR STABILITY ANALYSIS, COLLECTIVE INSTABILITY AND EXPONENTIAL GAIN; 5. STEADY-STATE RESULTS IN THE COMPTON REGIME; 6. SLIPPAGE EFFECTS AND SUPERRADIANCE IN THE COMPTON REGIME OF A HIGH-GAIN FEL*; 7. HIGH-GAIN FEL AMPLIFIERS IN A WAVEGUIDE; LIST OF SYMBOLS; REFERENCES
  • CHAPTER 4. SELECTED TOPICS IN FELS1. INTRODUCTION; 2. TAPERING THE WIGGLER; 3. ELECTRON BEAM DYNAMICS IN THE WIGGLER; 4. OPTICAL GUIDING; ACKNOWLEDGEMENT; REFERENCES; CHAPTER 5. HIGH GRADIENT ACCELERATORS FOR LINEAR LIGHT SOURCES; 1. INTRODUCTION; 2. CHARACTERISTICS OF EXISTING ELECTRON BEAM SOURCES; 3. SCALING BASIS FOR ACCELERATORS FOR LINEAR LIGHT SOURCES; 4. FOCUSING IN THE LINAC; 5. WAKEFIELDS AND BEAM LOADING; 6. PULSE MANIPULATION; 7. CHOICE OF FREQUENCY AND RF POWER SOURCES; 8. COST AND SIZE ESTIMATES; ACKNOWLEDGMENT; Appendix A. COST SCALING ALGORITHM FOR BRANCHED DRIVES; REFERENCES
  • CHAPTER 6. LINEAR COLLIDER REGIMES1. INTRODUCTION; 2 . DISRUPTION; 3. NATURAL SCALING; 4 . BEAMSTRAHLUNG FOR ROUND BUNCHES; 5 . DISRUPTION AND BEAMSTRAHLUNG FOR FLAT AND PINCHING BUNCHES; 6. COLLIDER REGIMES; 7. RELATIONS CONNECTING COLLISION PARAMETERS; 8. SCALING LAWS OF COPPER LINACS; 9. CONCLUSION; REFERENCES; CHAPTER 7. THE CLIC PROJECT AND THE DESIGN FOR AN e+e- COLLIDER; 1. INTRODUCTION; 2. LUMINOSITY, DISRUPTION AND BEAM RADIATION; 3. MAIN CLIC PARAMETERS; 4. SUPPLYING THE RF POWER
  • THE CLIC TWO-BEAM APPROACH; 5. WAKEFIELD EFFECTS AND RF FOCUSING; 6. WAKEFIELDS IN THE DRIVE LINAC
  • 7. TRANSFER STRUCTURES8. MAIN LINAC STRUCTURES; 9. DAMPING RINGS; 10. FINAL FOCUS; 11. CONCLUSION; REFERENCES; CHAPTER 8. PLASMA ASSISTED INVERSE FREE ELECTRON LASER; 1. Introduction.; 2 . The plasma physicist's F.E.L. and I.F.E.L.; 3 . Electron acceleration in a longitudinal electrostatic oscillation.; 4 . Plasma physics: cut-off and wave dynamics.; 5 . Saturation of the plasma wave, electron acceleration.; 6. A proof of principle experiment.; References.; CHAPTER 9. RADIATION FROM FINE, INTENSE, SELF-FOCUSSED BEAMS AT HIGH ENERGY; I. Introduction; II. Incoherent radiation

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