Ebook: Particle Accelerator Physics II: Nonlinear and Higher-Order Beam Dynamics
- Tags: Particle Acceleration and Detection Beam Physics, Optics Optoelectronics Plasmonics and Optical Devices
- Year: 1999
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 2
- Language: English
- pdf
Particle Accelerator Physics II continues the discussion of particle accelerator physics beyond the introductory Particle Accelerator Physics I. Aimed at students and scientists who plan to work or are working in the field of accelerator physics. Basic principles of beam dynamics already discussed in Vol.I are expanded into the nonlinear regime in order to tackle fundamental problems encountered in present-day accelerator design and development. Nonlinear dynamics is discussed both for the transverse phase space to determine chromatic and geometric aberrations which limit the dynamic aperture as well as for the longitude phase space in connection with phase focusing at very small values of the momentum compaction. Effects derived theoretically are compared with observations made at existing accelerators.
Particle Accelerator Physics II continues the discussion of particle accelerator physics beyond the introductory Particle Accelerator Physics I. Aimed at students and scientists who plan to work or are working in the field of accelerator physics. Basic principles of beam dynamics already discussed in Vol.I are expanded into the nonlinear regime in order to tackle fundamental problems encountered in present-day accelerator design and development. Nonlinear dynamics is discussed both for the transverse phase space to determine chromatic and geometric aberrations which limit the dynamic aperture as well as for the longitude phase space in connection with phase focusing at very small values of the momentum compaction. Effects derived theoretically are compared with observations made at existing accelerators.
Particle Accelerator Physics II continues the discussion of particle accelerator physics beyond the introductory Particle Accelerator Physics I. Aimed at students and scientists who plan to work or are working in the field of accelerator physics. Basic principles of beam dynamics already discussed in Vol.I are expanded into the nonlinear regime in order to tackle fundamental problems encountered in present-day accelerator design and development. Nonlinear dynamics is discussed both for the transverse phase space to determine chromatic and geometric aberrations which limit the dynamic aperture as well as for the longitude phase space in connection with phase focusing at very small values of the momentum compaction. Effects derived theoretically are compared with observations made at existing accelerators.
Content:
Front Matter....Pages I-XVIII
Hamiltonian Formulation of Beam Dynamics....Pages 1-42
General Electromagnetic Fields....Pages 43-72
Dynamics of Coupled Motion....Pages 73-92
Higher-Order Perturbations....Pages 93-126
Hamiltonian Nonlinear Beam Dynamics....Pages 127-162
Charged Particle Acceleration....Pages 163-228
Synchrotron Radiation....Pages 229-268
Hamiltonian Many-Particle Systems....Pages 269-304
Particle Beam Parameters....Pages 305-324
Collective Phenomena....Pages 325-405
Insertion Device Radiation....Pages 406-434
Back Matter....Pages 435-472
Particle Accelerator Physics II continues the discussion of particle accelerator physics beyond the introductory Particle Accelerator Physics I. Aimed at students and scientists who plan to work or are working in the field of accelerator physics. Basic principles of beam dynamics already discussed in Vol.I are expanded into the nonlinear regime in order to tackle fundamental problems encountered in present-day accelerator design and development. Nonlinear dynamics is discussed both for the transverse phase space to determine chromatic and geometric aberrations which limit the dynamic aperture as well as for the longitude phase space in connection with phase focusing at very small values of the momentum compaction. Effects derived theoretically are compared with observations made at existing accelerators.
Content:
Front Matter....Pages I-XVIII
Hamiltonian Formulation of Beam Dynamics....Pages 1-42
General Electromagnetic Fields....Pages 43-72
Dynamics of Coupled Motion....Pages 73-92
Higher-Order Perturbations....Pages 93-126
Hamiltonian Nonlinear Beam Dynamics....Pages 127-162
Charged Particle Acceleration....Pages 163-228
Synchrotron Radiation....Pages 229-268
Hamiltonian Many-Particle Systems....Pages 269-304
Particle Beam Parameters....Pages 305-324
Collective Phenomena....Pages 325-405
Insertion Device Radiation....Pages 406-434
Back Matter....Pages 435-472
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