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Beam Dynamics in High Energy Particle Accelerators [electronic resource]

Andrzej Wolski
Format
EBook; Book; Online
Published
London : Imperial College Press ; Singapore ; Hackensack, NJ : Distributed by World Scientific, c2014.
Language
English
ISBN
9781783262779, 178326277X
Summary
Particle accelerators are essential tools for scientific research in fields as diverse as high energy physics, materials science and structural biology. They are also widely used in industry and medicine. Producing the optimum design and achieving the best performance for an accelerator depends on a detailed understanding of many (often complex and sometimes subtle) effects that determine the properties and behavior of the particle beam. Beam Dynamics in High Energy Particle Accelerators provides an introduction to the concepts underlying accelerator beam line design and analysis, taking an approach that emphasizes the elegance of the subject and leads into the development of a range of powerful techniques for understanding and modeling charged particle beams.--
Contents
  • I. Electromagnetism and classical mechanics. 1. Electromagnetic fields in accelerator components
  • 2. Hamiltonian for a particle in an accelerator beam line
  • II. Single-particle linear dynamics. 3. Linear transfer maps for common components
  • 4. Linear optics in uncoupled beam lines
  • 5. Coupled optics
  • 6. Linear imperfections in storage rings
  • 7. Effects of synchrotron radiation
  • III. Single-particle nonlinear dynamics. 8. Examples of nonlinear effects in accelerator beam lines
  • 9. Representations of transfer maps
  • 10. Symplectic integrators
  • 11. Methods for analysis of single-particle dynamics
  • IV. Collective effects. 12. Space charge
  • 13. Scattering effects
  • 14. Wake fields, wake functions and impedance
  • 15. Coherent instabilities.
Description
Mode of access: World wide Web.
Notes
Includes bibliographical references (p. 573-583) and index.
Copyright Not EvaluatedCopyright Not Evaluated
Technical Details
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    a| I. Electromagnetism and classical mechanics. 1. Electromagnetic fields in accelerator components -- 2. Hamiltonian for a particle in an accelerator beam line -- II. Single-particle linear dynamics. 3. Linear transfer maps for common components -- 4. Linear optics in uncoupled beam lines -- 5. Coupled optics -- 6. Linear imperfections in storage rings -- 7. Effects of synchrotron radiation -- III. Single-particle nonlinear dynamics. 8. Examples of nonlinear effects in accelerator beam lines -- 9. Representations of transfer maps -- 10. Symplectic integrators -- 11. Methods for analysis of single-particle dynamics -- IV. Collective effects. 12. Space charge -- 13. Scattering effects -- 14. Wake fields, wake functions and impedance -- 15. Coherent instabilities.
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