Authors:
- Offers a comprehensive description of multipactor in accelerating cavities for scientists and engineers
- Provides theoretical treatment of the phenomenon, ties it up with experimental results, and provides insights on developing multipactor-free accelerating cavities
- Includes historical overview of advances in understanding multipactor
Part of the book series: Particle Acceleration and Detection (PARTICLE)
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Table of contents (12 chapters)
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Front Matter
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Multipactor in a Planar Gap
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Front Matter
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Multipactor in Crossed RF Fields
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Front Matter
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Multipacting-Free Cavities and Transitions Between Cavities and Beam Pipes
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Front Matter
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About this book
The book starts with an Introductory Overview which contains historical observations and brief description of most common aspects of the phenomenon. Part I deals with the multipactor in a flat gap. It starts with description of the dynamics of electrons, derivation of the stability condition and analyzing influence of several factors on the multipactor. Then, the initial considerations are extended to derive a generalized phase stability and finally a particular case, called ping-pong multipacting, is considered. The part one is concluded with a brief review of computer codes used in multipactor simulations. Part II is dedicated to the multipactor in crossed RF fields, the typical situation in accelerating cavities. Two cases of MP are considered: a two-point multipactor near the cavity equator in elliptical cavities and a one-point multipactor. Part III describes optimization of the cavity shapes geared toward designing multipactor-free structures. The book will serve as an importance reference on multipactor for those involved in developing and operating radio frequency cavities for particle accelerators.
Authors and Affiliations
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Cornell University, Ithaca, USA
Valery D. Shemelin
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Fermi National Accelerator Laboratory, Batavia, USA
Sergey A. Belomestnykh
About the authors
Dr. Sergey Belomestnykh is a Senior Scientist, Chief Technology Officer and Head of Applied Physics and Superconducting Technology Division at Fermi National Accelerator Laboratory (Fermilab). He received his M.S. degree from Novosibirsk State Technical University and his Ph.D. degree from Budker Institute of Nuclear Physics (Novosibirsk, Russia) where he worked for many years and was involved in several accelerator projects developing radio frequency (RF) systems. He joined Cornell University’s Laboratory for Elementary Particle Physics in 1994, working on developing superconducting RF (SRF) systems for Cornell Electron Storage Ring (CESR) and Cornell ERL as a CESR RF group leader. In 2010, he joined Brookhaven National Laboratory. In his capacity as a Scientists and Superconducting RF group leader, Dr. Belomestnykh led development of SRF and RF systems for several projects. Since 2015, he is with Fermilab overseeing research and operations of a large Division and coordination technology development throughout the laboratory. He is an Adjunct Professor at the Department of Physics and Astronomy, Stony Brook University. Dr. Belomestnykh is a Fellow of the American Physical Society and a recipient of the 2015 IEEE NPSS Particle Accelerator Science and Technology Award “for achievements in the science and technology of RF and SRF for particle accelerators.
Bibliographic Information
Book Title: Multipactor in Accelerating Cavities
Authors: Valery D. Shemelin, Sergey A. Belomestnykh
Series Title: Particle Acceleration and Detection
DOI: https://doi.org/10.1007/978-3-030-48198-8
Publisher: Springer Cham
eBook Packages: Physics and Astronomy, Physics and Astronomy (R0)
Copyright Information: Springer Nature Switzerland AG 2020
Hardcover ISBN: 978-3-030-49437-7Published: 11 August 2020
Softcover ISBN: 978-3-030-48197-1Published: 11 August 2020
eBook ISBN: 978-3-030-48198-8Published: 10 August 2020
Series ISSN: 1611-1052
Series E-ISSN: 2365-0877
Edition Number: 1
Number of Pages: XI, 134
Number of Illustrations: 1 b/w illustrations
Topics: Particle Acceleration and Detection, Beam Physics, Measurement Science and Instrumentation, Microwaves, RF and Optical Engineering, Nuclear Energy