Classical Mechanics and Electromagnetism in Accelerator Physics

Nonfiction, Science & Nature, Technology, Microwaves, Science, Physics, Mechanics
Cover of the book Classical Mechanics and Electromagnetism in Accelerator Physics by Gennady Stupakov, Gregory Penn, Springer International Publishing
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Author: Gennady Stupakov, Gregory Penn ISBN: 9783319901886
Publisher: Springer International Publishing Publication: May 23, 2018
Imprint: Springer Language: English
Author: Gennady Stupakov, Gregory Penn
ISBN: 9783319901886
Publisher: Springer International Publishing
Publication: May 23, 2018
Imprint: Springer
Language: English

This self-contained textbook with exercises discusses a broad range of selected topics from classical mechanics and electromagnetic theory that inform key issues related to modern accelerators.

Part I presents fundamentals of the Lagrangian and Hamiltonian formalism for mechanical systems, canonical transformations, action-angle variables, and then linear and nonlinear oscillators. The Hamiltonian for a circular accelerator is used to evaluate the equations of motion, the action, and betatron oscillations in an accelerator.  From this base, we explore the impact of field errors and nonlinear resonances.  This part ends with the concept of the distribution function and an introduction to the kinetic equation to describe large ensembles of charged particles and to supplement the previous single-particle analysis of beam dynamics.

Part II focuses on classical electromagnetism and begins with an analysis of the electromagnetic field from relativistic beams, both in vacuum and in a resistive pipe.  Plane electromagnetic waves and modes in waveguides and radio-frequency cavities are also discussed.  The focus then turns to radiation processes of relativistic beams in different conditions, including transition, diffraction, synchrotron, and undulator radiation. Fundamental concepts such as the retarded time for the observed field from a charged particle, coherent and incoherent radiation, and the formation length of radiation are introduced. We conclude with a discussion of laser-driven acceleration of charged particles and the radiation damping effect.

Appendices on electromagnetism and special relativity are included, and references are given in some chapters as a launching point for further reading.

This text is intended for graduate students who are beginning to explore the field of accelerator physics, but is also recommended for those who are familiar with particle accelerators but wish to delve further into the theory underlying some of the more pressing concerns in their design and operation.

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This self-contained textbook with exercises discusses a broad range of selected topics from classical mechanics and electromagnetic theory that inform key issues related to modern accelerators.

Part I presents fundamentals of the Lagrangian and Hamiltonian formalism for mechanical systems, canonical transformations, action-angle variables, and then linear and nonlinear oscillators. The Hamiltonian for a circular accelerator is used to evaluate the equations of motion, the action, and betatron oscillations in an accelerator.  From this base, we explore the impact of field errors and nonlinear resonances.  This part ends with the concept of the distribution function and an introduction to the kinetic equation to describe large ensembles of charged particles and to supplement the previous single-particle analysis of beam dynamics.

Part II focuses on classical electromagnetism and begins with an analysis of the electromagnetic field from relativistic beams, both in vacuum and in a resistive pipe.  Plane electromagnetic waves and modes in waveguides and radio-frequency cavities are also discussed.  The focus then turns to radiation processes of relativistic beams in different conditions, including transition, diffraction, synchrotron, and undulator radiation. Fundamental concepts such as the retarded time for the observed field from a charged particle, coherent and incoherent radiation, and the formation length of radiation are introduced. We conclude with a discussion of laser-driven acceleration of charged particles and the radiation damping effect.

Appendices on electromagnetism and special relativity are included, and references are given in some chapters as a launching point for further reading.

This text is intended for graduate students who are beginning to explore the field of accelerator physics, but is also recommended for those who are familiar with particle accelerators but wish to delve further into the theory underlying some of the more pressing concerns in their design and operation.

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