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 DynamicsBeam Optics and Focusing Systems without Space ChargeLinear Beam Optics with Space ChargeSelf-Consistent Theory of BeamsEmittance VariationBeam Physics Research from 1999 to 2007

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