Hyperfine Interactions

, Volume 15, Issue 1–4, pp 111–133 | Cite as

Laser spectroscopy applied to the study of hyperfine interactions

  • S. Svanberg
Invited Paper Hyperfine Interactions in Free Atoms and Ions

Abstract

The impact of laser-spectroscopy techniques on the study of hyperfine interactions is illustrated by chosen examples. A brief survey of the theory of hyperfine interactions is given as well as an overview of the available experimental techniques. Results from alkali atoms, alkaline-earth elements and Group III atoms are given with special emphasis on the studies of electronic properties in sequences of Rydberg states and the investigation of nuclear properties for long chains of isotopes of the same element. Recent developments on the theoretical side, particularly what regards the many-body perturbation approach, are also discussed.

Keywords

Spectroscopy Thin Film Experimental Technique Electronic Property Hyperfine Interaction 

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References

  1. [1]
    A.R.W. Mc Kellar, T. Oka and B.P. Stoicheff, Eds., Laser Spectroscopy V, Springer Series in Optical Sciences, Vol. 30 (Springer-Verlag, Berlin-Heidelberg-New York, 1981).Google Scholar
  2. [2]
    H.P. Weber and W. Lüthy, Eds., Laser Spectroscopy VI, Springer Series in Optical Sciences, (Springer-Verlag, Berlin-Heidelberg-New York, 1983), in press.Google Scholar
  3. [3]
    E. Matthias, H. Rinneberg, R. Beigang, A. Timmermann, J. Neukammer and K. Lücke, in Atomic Physics 8, Eds. I. Lindgren, A. Rosén and S. Svanberg (Plenum, New York 1983).Google Scholar
  4. [4]
    H.H. Stroke, in Atomic Physics 8, Eds. I. Lindgren, A. Rosén and S. Svanberg (Plenum, New York, 1983).Google Scholar
  5. [5]
    I. Lindgren and J. Morrison, Atomic Many-Body Theory, Springer Series in Chemical Physics, Vol. 13 (Springer-Verlag, Berlin-Heidelberg-New York, 1982).Google Scholar
  6. [6]
    I. Lindgren, Effective Operators in the Atomic Hyperfine Interaction, Reports on Progr. in Physics, in press.Google Scholar
  7. [7]
    I. Lindgren and A. Rosén, Case Studies in Atomic Physics 4 (1974) 93, 197.Google Scholar
  8. [8]
    I. Bauche and R.-J. Champeau, Adv. Atom.Mol.Phys. 12 (1976) 39.Google Scholar
  9. [9]
    A.-M. Mårtensson and S. Salomonsson, J. Phys. B15(1982)2115,Google Scholar
  10. [9a]
    E. Lindroth and A.-M. Mårtensson-Pendrill, Z. Physik A 309 (1983) 277.Google Scholar
  11. [10]
    Y. Kato and B.P. Stoicheff, J. Opt.Soc.Am. 66 (1976) 490; B.P. Stoicheff and E. Weinberger, Can.J.Phys 57 (1979) 2143.Google Scholar
  12. [11]
    K. Niemax and L.R. Pendrill, J. Phys. B13 (1980) L461; L.R. Pendrill and K. Niemax, J. Phys. B15(1982) L147; C.-J. Lorenzen and K. Niemax, J. Phys. B15(1982) L139.Google Scholar
  13. [12]
    W. Demtröder, Laser Spectroscopy, Springer Series in Chemical Physics, Vol 5 (Springer-Verlag, Berlin-Heidelberg-New York, 1981).Google Scholar
  14. [13]
    M.D. Levenson, Intr. to Non-linear Laser Spectr. (Acad. Press, N.Y. 1983)Google Scholar
  15. [14]
    P. Grafström, Jiang Zhan-Kui, G. Jönsson, S. Kröll, C. Levinson, H. Lundberg and S. Svanberg, Z. Physik A306 (1982) 281.Google Scholar
  16. [15]
    W.H. Wing, G.A. Ruff, W.E. Lamb Jr. and J.J. Spezeski, Phys.Rev. Lett. 36(1976)1488.Google Scholar
  17. [16]
    S.L. Kaufman, Opt.Commun. 17(1976)309.Google Scholar
  18. [17]
    C. Belfrage, P. Grafström, S. Kröll and S. Svanberg, Phys. Scripta 27 (1983) 367; Proc.CNRS Conf. on Optogalvanic Spectroscopy and its Applications, Aussois June 20–25 (1983).Google Scholar
  19. [18]
    C. Wieman and T.W. Hänsch, Phys.Rev.Lett. 36(1976) 1170.Google Scholar
  20. [19]
    M.S. Sorem and A.L. Schawlow, Opt. Commun. 5(1972) 148.Google Scholar
  21. [20]
    J.E. Lawler,A.I. Ferguson,J.E.M. Goldsmith,D.J. Jackson and A.L. Schawlow, Phys.Rev.Lett. 42(1979)1046.Google Scholar
  22. [21]
    T.W. Hänsch, D.R. Lyons, A.L. Schawlow, A. Siegel, Z.-Y. Wang and G.-Y. Yan, Opt.Commun. 38(1981)47.Google Scholar
  23. [22]
    L.S. Vasilenko, V.P. Chebotayev and A.V. Shishaev, JETP Lett. 12(1970)113; B. Cagnac, G. Grynberg and F. Biraben, J. Phys. (Paris) 34(1974)56 and Phys. Rev. Lett. 32(1974) 643; M.D. Levenson and N. Bloembergen, Phys. Rev. Lett. 32(1974)645; T.W. Hänsch, K. Harvey, G. Meisel and A.L. fnSchawlow, Opt. Commun. 11 (1974)50.Google Scholar
  24. [23]
    G. Belin, L. Holmgren, I. Lindgren and S. Svanberg, Phys. Scripta 12(1975)287.Google Scholar
  25. [24]
    G. Belin, L. Holmgren and S. Svanberg, Phys.Scripta 13(1976)351.Google Scholar
  26. [25]
    G. Belin, L. Holmgren and S. Svanberg, Phys.Scripta 14(1976)39.Google Scholar
  27. [26]
    P. Grundevik, H. Lundberg, A.-M. Mårtensson, K. Nyström and S. Svanberg, J. Phys. B 12(1979)2645.Google Scholar
  28. [27]
    Jiang Zhan-Kui, G. Jönsson and H. Lundberg, Phys. Scripta 26 (1982) 459.Google Scholar
  29. [28]
    I. Lindgren, A.-M. Mårtensson-Pendrill and S. Salomonsson(1983) to be published. See also Ref. [6].Google Scholar
  30. [29]
    R. Klapisch in Atomic Physics 7, Eds. D. Kleppner and F.M. Pipkin (Plenum, New York 1981).Google Scholar
  31. [30]
    F. Touchard, J.M. Serre, S. Büttgenbach, P. Guimbal, R. Klapisch, M. de Saint Simon, C. Thibault, H.T. Duong, P. Juncar, S. Liberman, J. Pinard and J.-L. Vialle, Phys. Rev. C25(1982)2756.Google Scholar
  32. [31]
    F. Touchard et al., Phys.Lett. 108B(1982)169.Google Scholar
  33. [32]
    C.Thibault et al, Phys.Rev. C23(1981)2720.Google Scholar
  34. [33]
    C.Thibault et al., Nucl. Phys. A367(1981)1.Google Scholar
  35. [34]
    S. Liberman et al. Phys.Rev. A22(1980)2732.Google Scholar
  36. [35]
    W. Klempt, J. Bonn, R. Neugart, Phys.Lett. 82B(1979)47.Google Scholar
  37. [36]
    B. Schinzler, W. Klempt, S.L.Kaufman,H. Lochman, G. Moruzzi, R. Neugart, E-W. Otten, J. Bonn, L. von Reisky, K.P.C. Spath, J. Steinacher and D. Wescott, Phys.Lett. 79B(1978)209.Google Scholar
  38. [37]
    R. Neugart, Nucl. Instr. Meth.186(1981)165.Google Scholar
  39. [38]
    W. Hogervorst, Comments At. Mol. Phys.13 (1983)69.Google Scholar
  40. [39]
    R.R. Freeman, P.F. Liao, R. Panock and L.M. Humphrey, Phys.Rev. A22(1980)1510.Google Scholar
  41. [40]
    F. Biraben, E. De Clerq, E. Giacobino and G. Grynberg, J.Phys. B13(1980)L685.Google Scholar
  42. [41]
    L.A. Bloomfield, B. Couillaud, Ph. Dabkiewicz, H. Gerhardt and T.W. Hänsch, Phys.Rev. A26(1982)713; H. Gerhardt and T.W. Hänsch, Opt.Commun. 41(1982)17.Google Scholar
  43. [42]
    L.A. Bloomfield, H. Gerhardt and T.W. Hänsch, Phys.Rev. A27(1983) 850.Google Scholar
  44. [43]
    P. Grundevik, M. Gustavsson, I. Lindgren, G. Olsson, T. Olsson and A. Rosén, Z. Physik A311(1983)143.Google Scholar
  45. [44]
    E.R.Eliel, W.Hogervorst, T. Olsson and L.R. Pendrill, Z.Physik A311(1983)Google Scholar
  46. [45]
    P. Grundevik, H. Lundberg, L. Nilsson and G. Olsson, Z.Physik A306 (1982)195.Google Scholar
  47. [46]
    P. Grundevik, M. Gustavsson, I. Lindgren, G. Olsson, T. Olsson and A. Rosén, Z. Physik A311(1983)143Google Scholar
  48. [47]
    B. Fricke, P. Grundevik, I. Lindgren, G. Olsson, T. Olsson, A. Rosén and G. Torbohm, to be published.Google Scholar
  49. [48]
    J.P. Desclaux, Comput. Phys. Commun. 9(1975)31.Google Scholar
  50. [49]
    G. Olsson and S. Salomonsson, Z. Physik A307(1982)99; S. Salomonsson, to be published. See also Ref. [6].Google Scholar
  51. [50]
    G. Nowicki, K. Bekk, S. Göring, A. Hanser, H. Rebel and G. Schatz, Phys. Rev. C18(1978)2369; K. Bekk, A. Andl, S. Göring, A. Hanser, G. Nowicki, H. Rebel and G. Schatz, Z. Physik A291 (1979)219, A.C.Mueller et al.,Nucl.Phys.A403 (1983), to appear.Google Scholar
  52. [51]
    A. Andl, K. Bekk, S. Göring, A. Hanser, G. Nowicki, H. Rebel, G. Schatz and R.C. Thompson, Phys. Rev. C26(1982)2194Google Scholar
  53. [52]
    E. Bergmann, P. Bopp, Ch. Dorsch, J. Kowalski, F. Träger and G. zu Putlitz, Z. Physik A294(1980)319.Google Scholar
  54. [53]
    W. Hogervorst and E.R. Eliel, Z. Physik A310(1983)19; E.R. Eliel and W. Hogervorst, J.Phys B16(1983)1881 and Phys.Rev.A,to appear.Google Scholar
  55. [54]
    C.-J.Lorenzen, U.Niemax and L.Pendrill, Phys.Rev.A, to appear.Google Scholar
  56. [55]
    W.E. Cooke in Atomic Physics 7, Eds. D. Kleppner and F.M. Pipkin (Plenum, New York 1981).Google Scholar
  57. [56]
    K. Bathia, P. Grafström, C. Levinson, H. Lundberg, L. Nilsson and S. Svanberg, Z. Physik A303(1981)1;T.F. Gallagher, W. Sandner and K.A. Safinya, Phys.Rev. A23(1981)2969; M. Aymar R.-J. Champeau, C. Delsart and J.C. Keller, J.Phys. B14(1981)4489Google Scholar
  58. [56a]
    M. Aymar, P. Grafström, C. Levinson, H. Lundberg and S. Svanberg, J. Phys B15 (1982) 877.Google Scholar
  59. [57]
    J.J. Wynne, J.A. Armstrong and P. Esherick, Phys.Rev.Lett.39 (1977)1520; P. Grafström, C. Levinson, H. Lundberg, S. Svanberg, P. Grundevik, L. Nilsson and M. Aymar, Z. Physik A308(1982)95.Google Scholar
  60. [58]
    J. Neukammer, E. Matthias and H. Rinneberg, Phys.Rev. A25 (1982)2426.Google Scholar
  61. [59]
    H. Rinneberg, Z. Physik A302(1981)363; R. Beigang and A. Timmermann, Phys.Rev. A25(1982)1496.Google Scholar
  62. [60]
    H. Rinneberg, J. Neukammer and E. Matthias, Z. Physik A306 (1982)11.Google Scholar
  63. [61]
    H. Rinneberg and J. Neukammer, Phys.Rev.Lett. 49(1982)124.Google Scholar
  64. [62]
    R. Beigang, E. Matthias and A. Timmermann, Phys.Rev.Lett. 47 (1981)326; ibid. 48(1982)290.Google Scholar
  65. [63]
    J.H.M. Neijzen and A. Dönszelmann, Physica 106C (1981) 271; Physica 111C (1981)127;Physica 114C (1982) 241, Physica 114C (1982) 399.Google Scholar
  66. [64]
    G. Jönsson and H. Lundberg, Z. Physik, submitted.Google Scholar
  67. [65]
    G. Jönsson, H. Lundberg and S. Svanberg, Phys. Rev. A, June 1983; M.A.Zaki Ewiss and C. Snoek, J. Phys. B16 (1983) L153.Google Scholar
  68. [66]
    H.L. Stück and P. Zimmermann, Z. Physik 239(1970)345; M. Brieger, H. Bucka, A. Reichelt and P. Zimmermann, Z. Naturforschg. 24a (1969)903.Google Scholar
  69. [67]
    J.H.M. Neijzen and A. Dönszelmann, Physica 98C(1979)143; Physica 114C (1982) 395.Google Scholar
  70. [68]
    Jiang Zhan-Kui, H. Lundberg and S. Svanberg, Z.Physik A306 (1982)7.Google Scholar
  71. [69]
    G. Jönsson, C. Levinson, S. Svanberg and C.G. Wahlström, Phys. Lett. 93A (1983) 121.Google Scholar
  72. [70]
    C. Belfrage, C. Levinson, I. Lindgren, H. Lundberg and S. Svanberg, to be published.Google Scholar
  73. [71]
    Jiang Zhan-Kui, G. Jönsson, H. Lundberg and S. Svanberg, to be published.Google Scholar
  74. [72]
    W. Fischer, Fortschr.Phys. 18(1970)89; G. Belin and S. Svanberg, Phys.Scripta 4 (1971)269.Google Scholar
  75. [73]
    H. Kopfermann, Nuclear Moments (Academic Press, New York, 1958.Google Scholar
  76. [74]
    R.M. Sternheimer, Phys.Rev. A6(1972)1702.Google Scholar
  77. [75]
    E.W. Otten, Nucl.Phys. A354 (1981) 471; H.-J.Kluge in Proc.Conf.on Lasers in Nuclear Physics, Oak Ridge, April 21–23 1982.Google Scholar
  78. [76]
    F. Buchinger, P. Dabkiewicz, H.-J. Kluge, A.C. Müller and E.W. Otten, Hyperfine Inter. 9(1981)165; R. Wenz, A. Timmermann and E. Matthias, Z.Physik A303(1981)87.Google Scholar
  79. [77]
    H. Gerhardt, F. Jeschonnek. W. Makat, E. Matthias, H. Rinneberg, F. Schneider, A. Timmermann, R. Wenz and P.J. West, Hyperfine Inter. 9(1981)175.Google Scholar
  80. [78]
    R.Neugart in Proc.Conf. on Lasers in Nuclear Physics, Oak Ridge April 21–23 1982; F. Buchinger et al., Nucl. Instr. and Meth. 202 (1982) 159; H. Brand, V. Pfeifer and A. Steudel, Z. Physik A302 (1981) 291;D.L.Clark, M.E. Cage, D.A. Lewis and G.W. Greenlees, Phys. Rev. A20 (1979) 239; L. Barbier and R.-J. Champeau, J. Physique 41 (1980) 947.Google Scholar
  81. [79]
    H.-J. Kluge, H. Kremmling, H.A. Schuessler, J. Streib and K. Wallmeroth, Z. Physik A309 (1983) 187, and to appear.Google Scholar
  82. [80]
    T.J. McIllrath and R.R. Freeman, Eds., Laser Techniques for Extreme Ultraviolet Spectroscopy, AIP Conference Proceedings Nr 90 (American Institute of Physics, New York, 1982).Google Scholar

Copyright information

© J.C. Baltzer Scientific Publishing Company 1983

Authors and Affiliations

  • S. Svanberg
    • 1
  1. 1.Department of PhysicsLund Institute of TechnologyLundSweden

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