PACS numbers

76.60.Cq Chemical and Knight shifts 76.80.+y Mössbauer effect; other γ-ray spectroscopy
  1. A.V. Nikolaev, A.V. Tsvashchenko “The puzzle of the γ→α and other phase transitions in cerium55 657–680 (2012)
    61.50.Ks, 64.70.K−, 71.10.−w, 71.27.+a, 71.70.Jp, 76.80.+y, 81.30.−t (all)
  2. A.V. Mitin “Modulation gamma-resonance spectroscopy49 959–965 (2006)
    01.10.Fv, 76.80.+y, 78.20.Hp (all)
  3. A.V. Stepanov, Yu.M. Tsipenyuk “Semiclassical approach to nuclear gamma resonance in crystals43 79–87 (2000)
    76.20.+q, 76.60.−k, 76.80.+y, 76.90.+d (all)
  4. A.P. Aleksandrov, Zh.I. Alferov et alVitalii Iosifovich Gol’danskii (on his seventieth birthday)36 (8) 757–759 (1993)
    01.60.+q, 29.20.−c, 13.88.+e, 21.60.Ev, 76.80.+y (all)
  5. V.I. Vysotskii, R.N. Kuz’min “Channeling of neutral particles and photons in crystals35 (9) 725–746 (1992)
    61.85.+p, 75.30.Ds, 75.60.Ch, 76.80.+y (all)
  6. N.B. Brandt, B.K. Vainshtein et alGerman Stepanovich Zhdanov (Obituary)35 (5) 439–440 (1992)
    01.60.+q, 61.10.Nz, 61.66.−f, 74.10.+v, 61.12.Ld, 76.80.+y (all)
  7. V.A. Belyakov “Mössbauer filtration of synchrotron radiation30 331–340 (1987)
    76.80.+y, 75.25.+z (all)
  8. K.K. Rebane “Phononless lines in laser spectroscopy of molecules and crystals. 1. The phononless line — an optical analog of the Mössbauer line27 541–543 (1984)
  9. E.F. Makarov, A.V. Mitin “Gamma-resonance solid-state spectroscopy under highfrequency excitation conditions19 741–757 (1976)
  10. V.I. Gol’danskii, Yu.M. Kagan “Feasibility of the Nuclear-Transition γ Laser (Gaser)16 563–565 (1974)
    42.55.Vc, 76.80.+y (all)
  11. Yu.A. Il’inskii, R.V. Khokhlov “The Possibility of Observing Stimulated γ Radiation16 565–567 (1974)
    61.80.Ed, 61.72.Lk, 76.60.Cq, 71.70.Ej (all)
  12. Yu.S. Grushko, L.I. Molkanov et alCombination of the X-Ray Chemical Shift Method and the Mossbauer Effect in Study of Electron Valence Structure17 464–465 (1974)
    76.80.+y, 76.60.Cq (all)
  13. R.I. Personov “Shpol’skii Spectra and the Optical Analog of the Mossbauer Effect15 368–369 (1972)
    76.80.+y, 63.20.Dj, 63.20.Kr (all)
  14. G.A. Smolenskii, N.N. Kraĭnik “Progress in ferroelectricity12 271–293 (1969)
    77.80.−e, 77.84.Dy, 76.60.Gv, 76.80.+y, 77.22.Ch, 78.20.Jq (all)
  15. V.A. Belyakov, Yu.M. Aivazyan “Direct determination of the magnetic structure of crystals with the aid of the Mössbauer effect12 302–304 (1969)
    76.80.+y, 75.25.+z (all)
  16. V.N. Murzin, R.E. Pasynkov, S.P. Solov’ev “Ferroelectricity and crystal-lattice dynamics10 453–484 (1968)
    77.80.Bh, 63.20.Ry, 63.20.Dj, 78.30.−j, 77.84.Dy, 76.80.+y (all)
  17. S.V. Vonsovskii “The physics of magnetic materials9 874–887 (1967)
    75.30.Cr, 75.25.+z, 76.80.+y, 75.20.−g (all)
  18. V.I. Gol’danskii “Research in the field of gamma-resonance (Mössbauer) spectroscopy9 461–479 (1967)
  19. I.F. Shchegolev “Investigation of the electron structure of metals with the aid of nuclear magnetic resonance5 827–842 (1963)
    71.20.Be, 76.60.Es, 76.60.Cq (all)
  20. Ya.A. Smorodinskii “The Mössbauer effect and the theory of relativity6 263–267 (1963)
  21. M.I. Kaganov, I.F. Mikhaĭlov, E.I. Rashba “VIII All-Union conference on low temperature physics (Kiev, October 13-20, 1961)5 532–545 (1962)
    01.10.Fv, 71.35.−y, 67.55.−s, 74.25.−q, 72.20.My, 76.80.+y (all)
  22. G.N. Belozerskiĭ, Yu.A. Nemilov “Resonance scattering of gamma rays in crystals3 813–831 (1961)
    76.80.+y, 71.70.Ej, 63.70.+h, 07.20.Mc (all)
  23. R.L. Mössbauer “Recoilless resonance absorption of gamma quanta in solids3 866–874 (1961)
  24. R.V. Pound “On the weight of photons3 875–880 (1961)
    76.80.+y, 63.70.+h, 71.70.−d, 41.20.Jb (all)
  25. F.L. Shapiro “THE MÖSSBAUER EFFECT3 881–887 (1961)
  26. L.A. Blyumenfel’d, V.V. Voevodskii “Radio spectroscopy and contemporary theoretical chemistry2 365–376 (1959)
    78.70.Gq, 76.30.−v, 76.60.Cq, 76.60.Gv, 82.30.−b (all)
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