An introduction to the physics of particle accelerators /

This book provides a concise and coherent introduction to the physics of particle accelerators. It is written for students at the graduate level in physics and provides the elements to tackle the main problems regarding cyclic particle accelerators. In particular, a thorough introduction is given on...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Conte, Mario
Otros Autores: MacKay, William W.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Singapore ; River Edge, N.J. : World Scientific, 1994, ©1991.
Temas:
Particle accelerators.
Nuclear physics > Instruments.
Particle Accelerators
Accélérateurs de particules.
Physique nucléaire > Instruments.
SCIENCE > Physics > Nuclear.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Table of Contents; Preface; 1 Introduction; 1.1 Motivation and overview; 1.2 Direct-voltage accelerators; 1.3 A review of relativistic particle motion; 1.4 Linear accelerators with oscillating electric fields; 1.5 Circular machines; 1.6 Momentum compaction and the synchronous particle; Problems; References for Chapter 1; 2 Equations of Motion for Weak Focusing; 2.1 Reference system for a circular machine; 2.2 Equations of motion; 2.3 Solutions of the motion equations and transfer matrices; 2.4 Momentum dispersion; 2.5 Weak focusing synchrotron; 2.6 Momentum compaction factor; Problems
  • 5.1 Transfer matrix approach and stability of the linear system5.2 Analytical approach; 5.3 Emittances; 5.4 Adiabatic invariants; 5.5 Dispersion; 5.6 Momentum compaction; Problems; References for Chapter 5; 6 Lattice Exercises; 6.1 The FODO Lattice; 6.2 Stability Diagrams; 6.3 FODO Cell Dispersion; 6.4 A few explicit forms of the Twiss Matrix; 6.5 Insertions; 6.6 Dispersion Suppressors; 6.7 Low beta insertion; 6.8 Coupled motion; 6.9 Chromaticity; Problems; References for Chapter 6; 7 Synchrotron Oscillations; 7.1 Transition Energy; 7.2 The Phase Stability Principle; 7.3 Resonant Acceleration
  • 7.4 The phase oscillation equation7.5 Large oscillations; 7.6 Hamiltonian formalism; 7.7 Adiabatic invariant; 7.8 Bunch manipulations; Problems; References for Chapter 7; 8 Synchrotron Radiation; 8.1 Radiated Power; 8.2 Radiation Damping of Energy Oscillations; 8.3 Damping of the Vertical Oscillations; 8.4 Damping of the Horizontal Oscillations; 8.5 Damping Partition Numbers; 8.6 Frequency Spectrum of the Radiation; 8.7 Energy Spread and Bunch Length; 8.8 Transverse Excitations; 8.9 Beam Lifetime Considerations; Problems; References for Chapter 8; 9 RF Linear Accelerators
  • 9.1 Maxwell's equations and waves9.2 Cylindrical waveguides; 9.3 Electron capture; 9.4 Cylindrical cavities; 9.5 Longitudinal equations of motion in a linac; 9.6 Transverse defocusing; 9.7 Radio frequency quadrupoles; Problems; References for Chapter 9; 10 Resonances; 10.1 Integer Resonance; 10.2 Linear coupling2; 10.3 Assessment of resonances; 10.4 Krylov-Bogoliubov method3; 10.5 Half-integer resonance; 10.6 The nonlinear third-integer resonance; 10.7 Recapitulation; Problems; References for Chapter 10; 11 Space-Charge Effects; 11.1 Transverse effects: tune shift

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