Handbook of accelerator physics and engineering /

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Chapters on beam dynamics and electromagnetic and nuclear interactions deal with linear and nonlinear single particle and collective effects including spin motion, beam-environment, beam-beam, beam-electron, beam-ion and intrabeam interactions. The impedance concept and related calculations are deal...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Chao, Alexander Wu (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Singapore ; Hackensack, N.J. : World Scientific Pub. Co., 2013.
Edición:Second edition.
Temas:
Particle accelerators > Handbooks, manuals, etc.
Nuclear physics > Handbooks, manuals, etc.
Accélérateurs de particules > Guides, manuels, etc.
Physique nucléaire > Guides, manuels, etc.
SCIENCE > Physics > Nuclear.
Nuclear physics
Particle accelerators
Acceleradors de partícules > Manuals, guies, etc.
Física nuclear > Manuals, guies, etc.
Handbooks and manuals
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Introduction. 1.1. How to use this book. 1.2. Nomenclature. 1.3. Fundamental constants. 1.4. Units and conversions. 1.5. Fundamental formulae / A.W. Chao. 1.5. Glossary of accelerator types. 1.7. Accelerator computer codes / R. Ryne
  • 2. Beam dynamics. 2.1. Phase space. 2.2. Optics and lattice. 2.3. Nonlinear dynamics. 2.4. Collective effects. 2.5. Beam-beam effects. 2.6. Polarization. 2.7. Beam cooling
  • 3. Electromagnetic and nuclear interactions. 3.1. Synchrotron radiation. 3.2. Impedances and wake functions. 3.3. Particle-matter interaction
  • 4. Operational considerations. 4.1. Luminosity / M.A. Furman, M.S. Zisman. 4.2. Brightness / P. Elleaume, K.-J. Kim. 4.3. Linac operation. 4.4. Recirculated energy recovery linacs / S.A. Bogacz, D.R. Douglas, G.A. Krafft. 4.5. Bunch compression / P. Emma. 4.6. Operation of linear-collider final focus systems / A.A. Seryi, G.R. White. 4.7. Operation of circular accelerators. 4.8. Temporal and spatial correlations in BPM measurements. 4.9. Transition crossing / J. Wei. 4.10. RF gymnastics in a synchrotron / R. Garoby. 4.11. Energy measurement with electron beams / J. Seeman. 4.12. Ring injection and extraction / G.H. Rees. 4.13. Collision schemes for ring colliders / M. Zobov, F. Zimmermann. 4.14. Beam-beam compensation schemes / J.P. Koutchouk, V. Shiltsev. 4.15. Space charge compensation (SCC) in hadron beams / V. Shiltsev. 4.16. Operational considerations on cooling / S. Nagaitsev, M. Blaskiewicz
  • 5. Mechanical considerations. 5.1. Mechanical and thermal properties of structural materials / M. Kuchnir. 5.2. Mechanical and thermal properties of composite superconductors / R.M. Scanlan. 5.3. Thermodynamic & hydrodynamic properties of coolants & cryogens / M. McAshan. 5.4. Creep and stress relaxation in accelerator components / F. Markley. 5.5. Electric and magnetic forces / M. Tigner. 5.6. Deflections and buckling / M. Tigner. 5.7. Practical heat transfer and fluid flow / M. McAshan, M. Tigner. 5.8. Fabrication of niobium rf structures / T. Hays, H. Padamsee, D. Proch. 5.9. Refrigeration systems / C. Rode, R. Ganni. 5.10. Vacuum systems. 5.11. Alignment / R. Ruland. 5.12. Magnet supports and alignment / G. Bowden. 5.13. Ground vibration / C. Montag, J. Rossbach. 5.14. Vibration control in accelerators / C. Montag.
  • 6. Electrical considerations. 6.1. Properties of dielectrics / M. Tigner. 6.2. Properties of conductors, normal and superconducting / R.M. Scanlan. 6.3. Properties of ferromagnetic materials / M. Tigner. 6.4. Permanent magnet materials / R.D. Schlueter. 6.5. Properties of lossy materials / E. Chojnacki. 6.6. Common transmission lines and cavities / M. Tigner. 6.7. RF pulse compression. 6.8. RF windows and cavity coupling / R.M. Sundelin, H.L. Phillips. 6.9. Multipacting / D. Proch, J. Sekutowicz. 6.10. Polyphase power circuits / M. Tigner. 6.11. High precision power converters / F. Bordry, J.P. Burne, M. Cerqueira Bastos. 6.12. High accuracy in power converters for particle accelerators / F. Bordry, J.P. Burnet, M. Cerqueira Bastos. 6.13. High-gradient limitations in room temperature RF linacs / G.A. Loew, S. Tantawi, J.W. Wang. 6.14. High voltage technique / B. Goddard. 6.15. Coating recipes. 6.16. Cavity measurements / R. Rimmer, M. Tigner. 6.17. Magnetic measurements. 6.18. High power switches
  • 7. Subsystems. 7.1. Particle sources. 7.2. Confinement and focusing. 7.3. Acceleration. 7.4. Beam instrumentation and diagnostics. 7.5. Impedance determination. 7.6. Polarimeters. 7.7. Controls and timing / K. Rehlich. 7.8. Femtosecond precision optical synchronization / F. Löhl
  • 8. Radiation effects and protection. 8.1. Radiation protection principles / S. Roesler, M. Silari. 8.2. Sources of radiation / R.H. Thomas, S. Roesler, M. Silari. 8.3. Monte Carlo codes / S. Roesler, M. Silari. 8.4. Radiation transport and shielding / S. Roesler, M. Silari. 8.5. Radiation measurements / S. Roesler, M. Silari. 8.6. induced radioactivity / S. Roesler, M. Silari. 8.7. Radiation damage thresholds / H. Schönbacher.

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