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A practical introduction to beam physics and particle accelerators
Title statement A practical introduction to beam physics and particle accelerators / Santiago Bernal. [elektronický zdroj] Publication San Rafael [California] (40 Oak Drive, San Rafael, CA, 94903, USA) : Morgan & Claypool Publishers, [2016] Distribution Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2016] Phys.des. 1 online resource (various pagings) : illustrations (some color). ISBN 9781681740768 (online) 9781681742045 mobi Edition [IOP release 2] IOP concise physics, ISSN 2053-2571 Note "Version: 20160301"--Title page verso. "A Morgan & Claypool publication as part of IOP Concise Physics"--Title page verso. Internal Bibliographies/Indexes Note Includes bibliographical references. Contents Preface -- 1. Rays and matrices -- 1.1. Paraxial approximation -- 1.2. Thin lens -- 1.3. Thick lens Content note 2. Linear magnetic lenses and deflectors -- 2.1. Magnetic rigidity, momentum, and cyclotron frequency -- 2.2. Solenoid focusing -- 2.3. Quadrupole focusing -- 2.4. The Kerst-Serber equations and weak focusing -- 2.5. Dipoles and edge focusing -- 2.6. Effective hard-edge model of fringe fields in focusing magnets -- 3. Periodic lattices and functions. 3.1. Solenoid lattice -- 3.2. FODO lattice -- 3.3. Lattice and beam functions -- 3.4. Uniform-focusing ('smooth') approximation -- 3.5. Linear dispersion -- 3.6. Momentum compaction, transition gamma, and chromaticity. 4. Emittance and space charge -- 4.1. Liouville's theorem and emittance -- 4.2. The Kapchinskij-Vladimirskij (K-V) and thermal distributions -- 4.3. The K-V envelope equations and space-charge (SC) intensity parameters -- 4.4. Incoherent space-charge (SC) betatron tune shift -- 4.5. Coherent tune shift and Laslett coefficients. 5. Longitudinal beam dynamics and radiation -- 5.1. Radio-frequency (RF) linacs -- 5.2. Beam bunch stability and RF bucket -- 5.3. Synchrotron radiation -- 5.4. Insertion devices and free-electron lasers (FELs) -- 5.5. Longitudinal beam emittance and space charge. 6. Applications and examples -- 6.1. Periodic-envelope FODO matching -- 6.2. Betatron resonances -- 6.3. Examples of linacs -- 6.4. Examples of rings -- Appendix. Computer resources and their use Notes to Availability Přístup pouze pro oprávněné uživatele Audience Students (advanced undergraduate to young researchers). Note Způsob přístupu: World Wide Web.. Požadavky na systém: Adobe Acrobat Reader. Another responsib. Morgan & Claypool Publishers, Institute of Physics (Great Britain), Subj. Headings Particle beams. * Particle accelerators. * Nuclear Physics. * SCIENCE/Physics/Nuclear. Form, Genre elektronické knihy electronic books Country Kalifornie Language angličtina Document kind Electronic books URL Plný text pro studenty a zaměstnance UPOL book
This book is a brief exposition of the principles of beam physics and particle accelerators with emphasis on numerical examples employing readily available computer tools. Avoiding detailed derivations, we invite the reader to use general high-end languages such as Mathcad and Matlab, as well as specialized particle accelerator codes (e.g. MAD, WinAgile, Elegant, and others) to explore the principles presented. This approach allows the student to readily identify relevant design parameters and their scaling and easily adapt computer input files to other related situations.
Preface -- 1. Rays and matrices -- 1.1. Paraxial approximation -- 1.2. Thin lens -- 1.3. Thick lens2. Linear magnetic lenses and deflectors -- 2.1. Magnetic rigidity, momentum, and cyclotron frequency -- 2.2. Solenoid focusing -- 2.3. Quadrupole focusing -- 2.4. The Kerst-Serber equations and weak focusing -- 2.5. Dipoles and edge focusing -- 2.6. Effective hard-edge model of fringe fields in focusing magnets -- 3. Periodic lattices and functions3.1. Solenoid lattice -- 3.2. FODO lattice -- 3.3. Lattice and beam functions -- 3.4. Uniform-focusing ('smooth') approximation -- 3.5. Linear dispersion -- 3.6. Momentum compaction, transition gamma, and chromaticity4. Emittance and space charge -- 4.1. Liouville's theorem and emittance -- 4.2. The Kapchinskij-Vladimirskij (K-V) and thermal distributions -- 4.3. The K-V envelope equations and space-charge (SC) intensity parameters -- 4.4. Incoherent space-charge (SC) betatron tune shift -- 4.5. Coherent tune shift and Laslett coefficients5. Longitudinal beam dynamics and radiation -- 5.1. Radio-frequency (RF) linacs -- 5.2. Beam bunch stability and RF bucket -- 5.3. Synchrotron radiation -- 5.4. Insertion devices and free-electron lasers (FELs) -- 5.5. Longitudinal beam emittance and space charge6. Applications and examples -- 6.1. Periodic-envelope FODO matching -- 6.2. Betatron resonances -- 6.3. Examples of linacs -- 6.4. Examples of rings -- Appendix. Computer resources and their use.
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