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Space Charge Physics for Particle Accelerators

  • Book
  • © 2017

Overview

Authors:
  1. Ingo Hofmann

    1. Darmstadt, Germany

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  • Offers the best summary of a space charge resonance in high intensity beams
  • Presents studies on measurement and 3D computer simulation with space charge
  • Provides linac design guide which considers space charge effects

Part of the book series: Particle Acceleration and Detection (PARTICLE)

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Table of contents (10 chapters)

  1. Front Matter

    Pages i-ix
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  2. Introduction

    • Ingo Hofmann
    Pages 1-8

  3. Phase Space Dynamics in Theory and Simulation

    • Ingo Hofmann
    Pages 9-19

  4. Vlasov and Envelope Analysis

    • Ingo Hofmann
    Pages 21-26

  5. Matched Beams

    • Ingo Hofmann
    Pages 27-39

  6. Modes of Space Charge Interaction

    • Ingo Hofmann
    Pages 41-69

  7. Beam Mismatch and Halo

    • Ingo Hofmann
    Pages 71-80

  8. Coherent Parametric Instabilities

    • Ingo Hofmann
    Pages 81-113

  9. Magnet Error Driven Resonances

    • Ingo Hofmann
    Pages 115-130

  10. Emittance Exchange in Anisotropic Beams

    • Ingo Hofmann
    Pages 131-144

  11. Discussion of Space Charge in Accelerator Design

    • Ingo Hofmann
    Pages 145-149

  12. Back Matter

    Pages 151-154
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Keywords

About this book

Understanding and controlling the physics of space charge effects in linear and circular proton and ion accelerators are essential to their operation, and to future high-intensity facilities. This book presents the status quo of this field from a theoretical perspective, compares analytical approaches with multi-particle computer simulations and – where available – with experiments. It discusses fundamental concepts of phase space motion, matched beams and modes of perturbation, along with mathematical models of analysis – from envelope to Vlasov-Poisson equations. The main emphasis is on providing a systematic description of incoherent and coherent resonance phenomena; parametric instabilities and sum modes; mismatch and halo; error driven resonances; and emittance exchange due to anisotropy, as well as the role of Landau damping. Their distinctive features are elaborated in the context of numerous sample simulations, and their potential impacts on beam quality degradation and

beam loss are discussed. 

The book is intended for advanced beginners in accelerator research, and for experts interested in the mechanisms of direct space charge interaction and their modeling.

Authors and Affiliations

  • Darmstadt, Germany

    Ingo Hofmann

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