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Collective Phenomena

  • Helmut Wiedemann

Abstract

Transverse and longitudinal beam dynamics as discussed in earlier chapters is governed by purely single-particle effects where the results do not depend on the presence of other particles or any interactive environment. Spacecharge effects were specifically excluded to allow the detailed discussion of single-particle dynamics. This restriction is sometimes too extreme and collective effects must be taken into account where significant beam intensities are desired. In most applications high beam intensities are desired and it is therefore prudent in particular cases to test for the appearance of space charge and intensity effects.

Keywords

Particle Beam Collective Phenomenon Bunch Length Momentum Spread Wake Field 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. 10.1
    W. Schottky: Ann. Physik 57, 541 (1918)ADSCrossRefGoogle Scholar
  2. 10.2
    J. Borer, P. Bramham, H G. Hereward, K. Hübner, W. Schnell, L. Thorndahl: 9th Int’l Conf. on High Energy Accel., Stanford (1974) p.53Google Scholar
  3. 10.3
    H.G. Hereward: CERN Rept. CERN 77–13, 281 (1977)Google Scholar
  4. 10.4
    W. Schnell: CERN Rept. CERN 77–13, 290 (1977)Google Scholar
  5. 10.5
    J. Gareyte: AIP Conf. Proc. 184, 343 (American Institute of Physics, New York 1989)Google Scholar
  6. 10.6
    D. Boussard: CERN Rept. CERN 87–03, Vol II, 416 (1987)Google Scholar
  7. 10.7
    S. Van der Meer: CERN Rept. CERN-ISR-PO/72–31 (1972)Google Scholar
  8. 10.8
    CAS CERN accelerator school “Antiprotons for Colliding Beam Facilities”. CERN Rept. CERN-84–15 (1984)Google Scholar
  9. 10.9
    C. Bernardini G.F. Corazza, G. DiGiugno, G. Ghigo, J. Haissinski, P. Marin, R. Querzoli, B. Touschek: Phys. Rev. Lett. 10, 407 (1963)ADSCrossRefGoogle Scholar
  10. 10.10
    B. Touschek: 1963 summer study on storage rings, accelerators and experiments at super high energies (Brookhaven). BNL Rept. 7534, 171 (1963)Google Scholar
  11. 10.11
    H. Bruck: Accélérateurs Circulaires de Particules (Presses Universitaires de France, Paris 1966)Google Scholar
  12. 10.12
    U. Völkel: Particle loss by Touschek effect in a storage ring. DESY Rept. DES Y 67–5 (1967)Google Scholar
  13. 10.13
    J. LeDuff: CERN Rept. CERN 89–01, 114 (1989)Google Scholar
  14. 10.14
    10.14 A. Piwinski: Proc. 9th Int’l Conf. on High Energy Accelerators, Stanford (1974) p.405Google Scholar
  15. 10.15
    A. Piwinski: CERN Accelerator School, Gif-sur-Yvette, Paris (1984). CERN 85–19 (1985)Google Scholar
  16. 10.16
    J.D. Bjorken, S.K. Mtingwa: Particle Accelerator 13, 115 (1983)Google Scholar
  17. 10.17
    H. Wiedemann: Particle Accelerator Physics I (Springer, Berlin, HeidelbergGoogle Scholar
  18. 10.18
    L.J. Laslett: On intensity limitations imposed by transverse space-charge effects. Rept. BNL-7534, Brookhaven National Laboratory, Upton (1963)Google Scholar
  19. 10.19
    D.W. Kerst: Phys. Rev. 60, 47 (1941)ADSCrossRefGoogle Scholar
  20. 10.20
    J.P. Blewett: Phys.Rev. 69, 87 (1946)ADSCrossRefGoogle Scholar
  21. 10.21
    M. Reiser: Theory and Design of Charged Particle Beams (Wiley, New YorkGoogle Scholar
  22. 10.22
    W.T. Weng: Space charge effects - tune shifts and resonances, in Physics of Particle Accelerators, ed by M. Month, AIP Conf. Proc., Vol.154 (American Institute of Physics, New York 1987)Google Scholar
  23. 10.23
    J. P. Delahaye G. Gelato, L. Magnani, G. Nassibian, F. Pedersen, K.H. Reich, K. Schindl, H. Schönauer: In Proc. 11th Int’l Conf. on High Energy Accelerators, ed. by W.S. Neumann (Birkhäuser, Basel 1980) p.299Google Scholar
  24. 10.24
    E. Raka, L. Ahrens, W. Frey, E. Gill, J.W. Glenn, R. Sanders, W.T. Weng: IEEE Trans. NS-32, 3110 (1985)Google Scholar
  25. 10.25
    A.W. Chao: Physics of Collective Beam Instabilities in High Energy Accelerators (Wiley, New York 1993)Google Scholar
  26. 10.26
    J.L. Laclare: CERN 87–03, 264 (1987)Google Scholar
  27. 10.27
    F. Sacherer: Proc. 9th Int’l Conf. on High Energy Accelerators (Stanford). SLAC (1974) p.347Google Scholar
  28. 10.28
    B. Zotter, F. Sacherer: CERN Rept. 77–13, 175 (1977)Google Scholar
  29. 10.29
    P.B. Wilson: Introduction to wake fields and wake functions. SLAC PUB-4547 (January 1989)Google Scholar
  30. 10.30
    P.B. Wilson, R.V. Servranckx, A.P. Sabersky, J. Gareyte, G.E. Fischer, A.W. Chao: IEEE Trans. NS-24, 1211 (1977)Google Scholar
  31. 10.31
    W.K.H. Panofsky, W.A. Wenzel: Rev. Sei. Instrum. 27, 967 (1956)ADSCrossRefGoogle Scholar
  32. 10.32
    J.D. Jackson: Classical Electrodynamics (Wiley, New York 1975)MATHGoogle Scholar
  33. 10.33
    W. Schnell: CERN Rept. ISR-RF/70–7 (1970)Google Scholar
  34. 10.34
    A.W. Chao, J. Gareyte: SLAC Int. Note SPEAR-197 (1976)Google Scholar
  35. 10.35
    C.E. Nielsen, A.M. Sessler, K.R. Symon: Proc. Int’l Conf. on High Energy Accelerators (Geneva) (1959) p.239Google Scholar
  36. 10.36
    V.K. Neil, A.M. Sessler: Rev. Sei. Instrum. 36, 429 (1965)ADSCrossRefGoogle Scholar
  37. 10.37
    L.J. Laslett, V.K. Neil, A.M. Sessler: Rev. Sei. Instrum. 36, 436 (1965)ADSCrossRefGoogle Scholar
  38. 10.38
    K. Hübner: CERN Rept. ISR-TH/ 70–44 (1970)Google Scholar
  39. 10.39
    A G. Ruggiero, V.G.Vacarro: CERN Rept. CERN ISR-TH/68–33 (1968)Google Scholar
  40. 10.40
    K. Hübner, A G. Ruggiero, V.G. Vacarro: 8th Int’l Conf. on High Energy Accelerators, Yerevan (1969)Google Scholar
  41. 10.41
    K. Hübner, AG. Ruggiero, V.G. Vaccaro: CERN Rept. CERN ISR-TH- RF/69–23 (1969)Google Scholar
  42. K. Hübner, P. Strohn, V.G. Vaccaro, B. Zotter: CERN Rept. CERN ISR-RF- TH/ 70–2 (1970)Google Scholar
  43. K. Hübner, V.G. Vaccaro: CERN Rept. CERN ISR-TH/70–44 (1970)Google Scholar
  44. 10.42
    B. Zotter, F. Sacherer: Rept. CERN 77–13 (1977)Google Scholar
  45. 10.43
    J. Landau: J. Phys. USSR 10, 25 (1946)Google Scholar
  46. 10.44
    E. Keil, W. Schnell: CERN Rept. ISR-TH-RF/ 69–48 (1969)Google Scholar
  47. 10.45
    H.G. Hereward: CERN Rept. CERN-65–20 (1965)Google Scholar
  48. 10.46
    A. Hofmann: Lect. Notes Phys. 296, 112 (Springer, Berlin, Heidelberg 1988)Google Scholar
  49. 10.47
    L.R. Evans: AIP Conf. Proc. (ed. by M. Month, F. Dahl, M. Dienes) 127, 243 (American Institute of Physics, New York 1985)Google Scholar
  50. 10.48
    C. Pellegrini, A.M. Sessler: Nuovo Cimento A 3, 116 (1971)ADSCrossRefGoogle Scholar
  51. 10.49
    F. Sacherer: CERN Rept. SI-BR/72–5 (1972)Google Scholar
  52. 10.50
    J. Haissinski: Nuovo Cimento B 18, 72 (1973)Google Scholar
  53. 10.51
    D. Boussard: Int. CERN Rept. Lab II/RF/Int 75–2 (1975)Google Scholar
  54. 10.52
    V. Balakin, A. Novokhatsky, V. Smirnov: Proc. 12th Int’l Conf. on High Energy Accelerators, FNAL (1983) p. 119Google Scholar
  55. 10.53
    J.T. Seemann: Frontiers of particle beams: Intensity limitations. Lea. Notes Phys. 400, 255 (Springer, Berlin, Heidelberg 1992)Google Scholar
  56. 10.54
    D. Kohaupt: IEEE Trans. NS-26, 3480 (1979)Google Scholar
  57. 10.55
    C. Pellegrini: Nuovo Cimento A 64, 447 (1969)ADSCrossRefGoogle Scholar
  58. 10.56
    M. Sands: SLAC Int. Repts. TN-69–8 and TN-69–10 (1969)Google Scholar
  59. 10.57
    J.M. Paterson, B. Richter, A.P. Sabersky, H. Wiedemann, P.B. Wilson, M.A. Allen, J.-E. Augustin, G.E. Fischer, R.H. Helm, M.J. Lee, M. Matera, P. L. Morton: Proc. 9th Intl Conf. on High Energy Accelerators, SLAC (1974) p.338Google Scholar
  60. 10.58
    J. Gareyte, F. Sacherer: Proc. 9th Int’l Conf. on High Energy Accelerators, SLAC (1974) p.341Google Scholar
  61. 10.59
    R.D. Kohaupt: Excitation of a transverse instability by parasitic cavity modes. Int. Note DESY Hl-74/2 (May 1972)Google Scholar
  62. 10.60
    J. Le Duff, J. Maidment, E. Däskowski, D. Degèle, H D. Dehne, H. Gerke, D. Heins, K. Hoffmann, K. Holm, E. Jandt, R.D. Kohaupt, J. Kouptsidis, F. Krafft, N. Lehnart, G. Mülhaupt, H. Nesemann, S. Pätzold, H. Pingel, A. Pi- winski, R. Rossmanith, H.D. Schulz, K G. Steffen, H. Wiedemann, K. Wille, A. Wrulich: Proc. 9th Int’l Conf. on High Energy Accelerators, SLAC (1974) p.43Google Scholar
  63. 10.61
    A. Massarotti, M. Svandrlik: Particle Accelerators 35, 167 (1991)Google Scholar
  64. 10.62
    F. Voelker, G. Lambertson, R. Rimmer: Conf on Particle Accelerators, San Francisco, IEEE Cat. No. 91CH3038–7 (1991) p.687Google Scholar
  65. 10.63
    R. Rimmer, F. Voelker, G. Lambertson, M. Allen, J. Hodgeson, K. Ko, R. Pendleton, H. Schwartz: Conf. on Particle Accelerators, San Francisco, IEEE Cat.No. 91CH3038–7 (1991) p.801Google Scholar
  66. 10.64
    S. Bartalucci, R. Boni, A. Gallo, L. Palumbo, R. Parodi, M. Serio, B. Spataro, G. Vignola: Proc. 3rd Europ. Conf on Part. Accel., Berlin, ed. by H. Henke, H. Homeyer, Ch. Petit-Jean-Genaz (Edition Frontiere, Gif-sur-Yvette 1992)Google Scholar
  67. 10.65
    M. Svandrlik, G. D’Auria, A. Fabris, A. Massarotti, C. Pasotti, C. Rossi: A pillbox resonator with very strong suppression of the H.O.M. spectrum. Sincrotrone Trieste Int. Rept. ST/M-92/14 (1992)Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 1995

Authors and Affiliations

  • Helmut Wiedemann
    • 1
  1. 1.Applied Physics Department and Stanford Synchrotron Radiation LaboratoryStanford UniversityStanfordUSA

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