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Il Nuovo Cimento B (1971-1996)

, Volume 39, Issue 2, pp 671–681 | Cite as

Far-UV spectroscopy by use of synchrotron radiation

Article

Summary

Synchrotron radiation as it is emitted by electron synchrotrons and by storage rings is described. Its properties are explained and the typical layout of a laboratory is shown. The types of experiments which can be performed in the VUV are listed.

Спектроскопия в далекой ультрафиолетовой области с использованием синхротронного излучения

Резюме

Описывается синхротронное излучение, испускаемое электронами в синхротронах и накопительных кольцах. Обсуждаются свойства излучения и показывается типичный план лаборатории. Предлагается ряд экспериментов, которые могут быть проведены в далекой ультрафиолетовой области.

Riassunto

Si descrive la radiazione di sincrotrone così come è emessa dall’elettrosincrotrone e da anelli di accumulazione. Le sue proprietà sono spiegate e si mostra la tipica organizzazione di un laboratorio. Si elencano i tipi di esperimenti che possono essere attuati nel VUV.

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Footnotes

  1. (1).
    A. A. Sokolov andJ. M. Ternov:Synchrotron Radiation, translated from the Russian (London, 1968).Google Scholar
  2. (2).
    J. W. McGowan andE. M. Rowe, Editors:Proceedings of Synchrotron Radiation Facilities, Quebec Summer Workshop, Report University Western Ontario, London, Ont., 1976.Google Scholar
  3. (3).
    An Assessment of the National Need for Facilities Dedicated to the Production of Synchrotron Radiation, Report to the National Academy of Sciences, Washington, D.C., 1976.Google Scholar
  4. (4).
    D. Ivanenko andJ. Pomeranchuk:Phys. Rev.,65, 343 (1944).ADSCrossRefGoogle Scholar
  5. (5).
    J. Schwinger:Phys. Rev.,70, 798 (1946);75, 1912 (1949).Google Scholar
  6. (6).
    A. Sommerfeld:Elektrodynamik (Leipzig, 1949).Google Scholar
  7. (7).
    J. D. Jackson:Classical Electrodynamics (New York, N. Y., 1962), p. 481.Google Scholar
  8. (8).
    B. Wende: private communication.Google Scholar
  9. (9).
    R. P. Godwin:Springer Tracts Mod. Phys.,51, 1 (1969).ADSCrossRefGoogle Scholar
  10. (10).
    E. E. Koch, C. Kunz andE. W. Weiner:Optik,45, 395 (1976).Google Scholar
  11. (11).
    C. Kunz: inOptical Properties of Solids. New Developments, edited byB. O. Seraphin (Amsterdam, and New York, N. Y., 1976), p. 473.Google Scholar
  12. (12).
    E. E. Koch: inInteraction of Radiation with Condensed Matter, edited byL. A. Self (Wien, 1976).Google Scholar
  13. (13).
    E. M. Rowe andF. E. Mills:Particle Accelerators,4, 221 (1973).Google Scholar
  14. (14).
    J. L. Stanford, V. Rehn, D. S. Kyser, V. O. Jones andA. Klugman:Vacuum Ultraviolet Radiation Physics, edited byE. E. Koch, R. Haensel andC. Kunz (Braunschweig, 1974), p. 783.Google Scholar
  15. (15).
    M. Skibowski andW. Steinmann:Journ. Opt. Soc. Amer.,57, 112 (1967).CrossRefGoogle Scholar
  16. (16).
    V. Saile, P. Gürtler, E. E. Koch, A. Kozevnikov, M. Skibowski andW. Steinmann:Appl. Opt.,15, 2559 (1976).ADSCrossRefGoogle Scholar
  17. (17).
    C. Kunz: inProceedings of the International Symposium for Synchrotron Radiation Users, edited byG. V. Marr andI. H. Munro, Daresbury Nuclear Physics Laboratory, Report DNPL/R26 (1973), p. 68.Google Scholar
  18. (18).
    E. E. Koch, R. Haensel andC. Kunz, Editors:Vacuum Ultraviolet Radiation Physics (Braunschweig, 1974).Google Scholar
  19. (19).
    F. C. Brown:Solid State Phys.,29, 1 (1974).Google Scholar
  20. (20).
    B. Sonntag: inRare Gas Solids, II, edited byM. L. Klein andJ. A. Venables (New York, N. Y., 1977), in press.Google Scholar
  21. (21).
    E. E. Koch, C. Kunz andB. Sonntag:Phys. Rep.,20 C, 153 (1976).Google Scholar

Copyright information

© Società Italiana di Fisica 1977

Authors and Affiliations

  • C. Kunz
    • 1
  1. 1.Deutsches Elektronen-Synchrotron DESYHamburg 52

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