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E-book: Lectures On Accelerator Physics

(Slac National Accelerator Lab, Usa)
  • Format: 916 pages
  • Pub. Date: 14-Oct-2020
  • Publisher: World Scientific Publishing Co Pte Ltd
  • Language: eng
  • ISBN-13: 9789811226755
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  • Price: 81,90 €*
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Lectures On Accelerator PhysicsLarger Image
  • Format: 916 pages
  • Pub. Date: 14-Oct-2020
  • Publisher: World Scientific Publishing Co Pte Ltd
  • Language: eng
  • ISBN-13: 9789811226755
Other books in subject:

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This book is written for students who ever wondered about the mysterious and fascinating world of particle accelerators. What exciting physics and technologies lie within? What clever and ingenious ideas were applied in their seven decades of evolution? What promises still lay ahead in the future? Accelerators have been driving research and industrial advances for decades. This textbook illustrates the physical principles behind these incredible machines, often with intuitive pictures and simple mathematical models. Pure formalisms are avoided as much as possible. It is hoped that the readers would enjoy the fascinating physics behind these state-of-the-art devices. The style is informal and aimed for a graduate level without prerequisite of prior knowledge in accelerators. To serve as a textbook, references are listed only on the more established original literature and review articles instead of the constantly changing research frontiers.

Preface v
Prerequisites vi
References vi
1 Introduction
1(79)
1.1 Basics
1(21)
1.2 Design a first storage ring
22(10)
1.3 2-D magnet
32(27)
1.4 Solenoid
59(9)
1.5 Space charge
68(5)
1.6 Beam position monitor
73(7)
2 Transverse Motion
80(133)
2.1 Equation of motion
80(13)
2.2 Matrix formalism
93(36)
2.3 Symplecticity
129(18)
2.4 Courant-Snyder formalism
147(47)
2.5 Normal form
194(7)
2.6 3-D radio-frequency particle trap
201(12)
3 Perturbation
213(111)
3.1 Field error
214(2)
3.2 Orbit distortion
216(23)
3.3 Tune shift
239(13)
3.4 Adiabatic damping
252(7)
3.5 Linear coupling
259(17)
3.6 Nonlinear resonance
276(12)
3.7 Smooth approximation
288(36)
4 Chromatic Effect
324(53)
4.1 Dispersion function
324(9)
4.2 Calculation of dispersion function
333(12)
4.3 Wien filter
345(5)
4.4 Dispersion suppressor
350(3)
4.5 Momentum compaction
353(4)
4.6 Achromat cell
357(4)
4.7 Chromaticity
361(16)
5 Longitudinal Motion
377(124)
5.1 Radio-frequency cavity
378(27)
5.2 Cavity array
405(13)
5.3 Longitudinal dynamics
418(47)
5.4 Nonlinear dynamics and chaos
465(5)
5.5 Transverse-longitudinal coupled system
470(24)
5.6 Emittance exchange technique
494(7)
6 Synchrotron Radiation
501(154)
6.1 Beam producing radiation
503(30)
6.2 Bending magnet radiation
533(15)
6.3 Quantum mechanical picture
548(15)
6.4 Radiation acting back on beam
563(64)
6.5 SLIM formalism
627(28)
7 Undulator And Free Electron Laser
655(102)
7.1 Four generations
655(2)
7.2 Undulator
657(8)
7.3 Undulator radiation
665(47)
7.4 Low gain free electron laser
712(25)
7.5 High gain free electron laser
737(15)
7.6 Seeding
752(5)
8 Collective Instability
757(138)
8.1 Wake function
759(34)
8.2 Impedance
793(18)
8.3 Macroparticle model in linear accelerator
811(11)
8.4 Parasitic heating
822(4)
8.5 Vlasov equation
826(7)
8.6 Potential-well distortion
833(6)
8.7 Macroparticle model in circular accelerator
839(25)
8.8 Landau damping
864(12)
8.9 Collective instability with Landau damping
876(19)
Subject Index 895
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