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Theory and design of charged particle beams / Martin Reiser ; with contributions by Patrick O'Shea, Santiago Bernal, and Rami Kishek.



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Reiser, M. (Martin), 1931-
Publication date:
2nd, updated and expanded ed. - Weinheim : Wiley-VCH, c2008.
  • Book
  • xxvii, 647 p. : ill. (some col.) ; 25 cm.
Includes bibliographical references (p. 635-637) and index.
  • Preface for 2nd Edition. Preface for 1st Edition. Acknowledgments for 2nd Edition. Acknowledgments for 1st Edition. 1 Introduction. 1.1 Exposition. 1.2 Historical Developments and Applications. 1.3 Sources of Charged Particles. References. 2 Review of Charged Particle Dynamics. 2.1 The Lorentz Force and the Equation of Motion. 2.2 The Energy Integral and Some General Formulas. 2.3 The Lagrangian and Hamiltonian Formalisms. 2.4 The Euler Trajectory Equations. 2.5 Analytic Examples of Charged Particle Motion. Reference. Problems. 3 Beam Optics and Focusing Systems without Space Charge. 3.1 Beam Emittance and Brightness. 3.2 Liouville's Theorem. 3.3 The Paraxial Ray Equation for Axially Symmetric Systems. 3.4 Axially Symmetric Fields as Lenses. 3.5 Focusing by Quadrupole Lenses. 3.6 Constant-Gradient Focusing in Circular Systems. 3.7 Sector Magnets and Edge Focusing. 3.8 Periodic Focusing. 3.9 Adiabatic Damping of the Betatron Oscillation Amplitudes. References. Problems. 4 Linear Beam Optics with Space Charge. 4.1 Theoretical Models of Beams with Space Charge. 4.2 Axisymmetric Beams in Drift Space. 4.3 Axisymmetric Beams with Applied and Self Fields. 4.4 Periodic Focusing of Intense Beams (Smooth-Approximation Theory). 4.5 Space-Charge Tune Shift and Current Limits in Circular Accelerators. 4.6 Charge Neutralization Effects. References. Problems. 5 Self-Consistent Theory of Beams. 5.1 Introduction. 5.2 Laminar Beams in Uniform Magnetic Fields. 5.3 The Vlasov Model of Beams with Momentum Spread. 5.4 The Maxwell-Boltzmann Distribution. References. Problems. 6 Emittance Growth. 6.1 Causes of Emittance Change. 6.2 Free Energy and Emittance Growth in Nonstationary Beams. 6.3 Instabilities. 6.4 Collisions. 6.5 Beam Cooling Methods in Storage Rings. 6.6 Concluding Remarks. References. Problems. 7 Beam Physics Research from 1993 to 2007. 7.1 Introduction. 7.2 Longitudinal Beam Physics Research. 7.3 Transverse Beam Physics. 7.4 The University of Maryland Electron Ring. 7.5 Issues Related to Electron Photoinjectors. 7.6 Concluding Remarks. References. Problems. Appendix 1. Example of a Pierce-Type Electron Gun with Shielded Cathode. References. Appendix 2. Example of a Magnetron Injection Gun. References. Appendix 3. Four-Vectors and Covariant Lorentz Transformations. References. Appendix 4. Equipartitioning in High-Current rf Linacs. References. Appendix 5. Radial Defocusing and Emittance Growth in High-Gradient rf Structures (Example: The rf Photocathode Electron Gun). References. List of Frequently Used Symbols. Bibliography (Selected List of Books). Index.
  • (source: Nielsen Book Data)
Publisher's Summary:
Most advanced accelerator applications require beams with high-power and high brightness, which are determined by space-charge effects at low energy. Examples are the giant High Energy Physics Large Hadron Collider (LHC) at CERN, to be launched in 2008, and the International Linear Collider (ILC) being considered to follow the LHC. Other examples are Spallation Neutron Sources, the proposed Heavy Ion Inertial Fusion driver for energy production, Free Electron Lasers, and Muon Colliders.This revised and updated monograph offers a broad synoptic description of beams in accelerators and other devices with negligible to strong space charge effects. The book develops material in a systematic way and discusses the underlying physics and validity of theoretical relationships, design formulas and scaling laws. Assumptions and approximations are clearly indicated throughout. The new edition of "Theory and Design of Charged Particle Beams" has significant additional content, which covers experiments, theory, and simulation in beam physics research since 1993, when the first edition was published. It includes the University of Maryland Electron Ring for studying space-charge dominated beams in rings and re-circulators. From the contents: Review of Charged Particle Dynamics; Beam Optics and Focusing Systems without Space Charge; Linear Beam Optics with Space Charge; Self-Consistent Theory of Beams; Emittance Variation; and Beam Physics Research from 1999 to 2007.
(source: Nielsen Book Data)

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