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Particle Accelerator Physics I Basic Principles and Linear Beam Dynamics

In this second edition of Particle Accelerator Physics, Vol. 1, is mainly a reprint of the first edition without significant changes in content. The bibliography has been updated to include more recent progress in the field of particle accelerators. With the help of many observant readers a number o...

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Bibliographic Details
Main Author:	Wiedemann, Helmut
Format:	eBook
Language:	English
Published:	Berlin, Heidelberg Springer Berlin Heidelberg 1999, 1999
Edition:	2nd ed. 1999
Subjects:	Measurement Particle Accelerators Measuring Instruments Accelerator Physics Measurement Science And Instrumentation
Online Access:	https://doi.org/10.1007/978-3-662-03827-7?nosfx=y
Collection:	Springer Book Archives -2004 - Collection details see MPG.ReNa

Table of Contents:

1. Introduction
1.1 Short Historical Overview
1.2 Particle Accelerator Systems
1.3 Basic Definitions and Formulas
1.4 Basic Principles of Particle-Beam Dynamics
Problems
2. Linear Accelerators
2.1 Principles of Linear Accelerators
2.2 Acceleration by rf Fields
2.3 Preinjector Beam Preparation
Problems
3. Circular Accelerators
3.1 Betatron
3.2 Weak Focusing
3.3 Adiabatic Damping
3.4 Acceleration by rf Fields
3.5 Synchrotron
3.6 Summary of Characteristic Parameters
Problems
4. Charged Particles in Electromagnetic Fields
4.1 The Lorentz Force
4.2 Coordinate System
4.3 Fundamentals of Charged Particle Beam Optics
4.4 Multipole Field Expansion
4.5 Multipole Fields for Beam Transport Systems
4.6 Multipole Field Patterns and Pole Profiles
4.7 Equations of Motion in Charged Particle Beam Dynamics
4.8 General Solution of the Equations of Motion
4.9 Building Blocks for Beam Transport Lines
Problems
5. Linear Beam Dynamics
5.1 Linear Beam Transport Systems
5.2 Matrix Formalism in Linear Beam Dynamics
5.3 Focusing in Bending Magnets
5.4 Particle Beams and Phase Space
5.5 Betatron Functions
5.6 Dispersive Systems
5.7 Path Length and Momentum Compaction
Problems
6. Periodic Focusing Systems
6.1 FODO Lattice
6.2 Betatron Motion in Periodic Structures
6.3 Beam Dynamics in Periodic Closed Lattices
6.4 Periodic Dispersion Function
6.5 Periodic Lattices in Circular Accelerators
Problems
7. Perturbations in Beam Dynamics
7.1 Magnet Alignment Errors
7.2 Dipole Field Perturbations
7.3 Quadrupole Field Perturbations
7.4 Resonance Theory
7.5 Chromatic Effects in a Circular Accelerator
Problems
8. Charged Particle Acceleration
8.1 Longitudinal Particle Motion
8.2 Longitudinal Phase Space Parameters
Problems
9. Synchrotron Radiation
9.1 Physics of Synchrotron Radiation
9.2 Coherent Radiation
9.3 Insertion Devices
9.4 Back Scattered Photons
Problems
10. Particle Beam Parameters
10.1 Definition of Beam Parameters
10.2 Damping
10.3 Particle Distribution in Phase Space
10.4 Variation of the Equilibrium Beam Emittance
10.5 Variation of the Damping Distribution
Problems
11. Beam Life Time
11.1 Beam Lifetime and Vacuum
11.2 Ultra High Vacuum System
Problems
12. Collective Phenomena
12.1 Linear Space-Charge Effects
12.2 Beam—Beam Effect
12.3 Wake Fields
12.4 Beam Instabilities
Problems
13. Beam Emittance and Lattice Design
13.1 Equilibrium Beam Emittance in Storage Rings
13.2 Beam Emittance in Periodic Lattices
13.3 Optimum Emittance for Colliding Beam Storage Rings
Problems
Appendices
A. Suggested Reading
B. Bibliography
References
Author Index

Particle Accelerator Physics I Basic Principles and Linear Beam Dynamics

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