PACS numbers

33.70.Jg Line and band widths, shapes, and shifts 33.80.−b Photon interactions with molecules
  1. G.N. Makarov “New results for laser isotope separation using low-energy methods63 245–268 (2020)
    07.77.Gx, 33.80.−b, 36.40.−c, 42.62.−b, 42.62.Fi, 82.40.Fp, 82.50.Bc (all)
  2. G.N. Makarov “Control of the parameters and composition of molecular and cluster beams by means of IR lasers61 617–644 (2018)
    06.30.−k, 07.77.Gx, 33.80.−b, 36.40.−c, 41.75.Jv, 42.62.Fi, 82.50.Hp (all)
  3. G.N. Makarov “Laser IR fragmentation of molecular clusters: the role of channels for energy input and relaxation, influence of surroundings, dynamics of fragmentation60 227–258 (2017)
    07.77.Gx, 33.80.−b, 36.40.−c, 37.20.+j, 42.62.Fi, 81.07.−b, 82.50.Bc (all)
  4. G.N. Makarov “Low energy methods of molecular laser isotope separation58 670–700 (2015)
    07.77.Gx, 33.80.−b, 36.40.−c, 42.62.−b, 42.62.Fi, 82.40.Fp, 82.50.Bc (all)
  5. S.S. Alimpiev, A.A. Grechnikov, S.M. Nikiforov “New approaches to the laser mass spectrometry of organic samples58 191–195 (2015)
    33.80.−b, 42.62.−b, 81.70.−q (all)
  6. G.N. Makarov “On the possibility of selecting molecules embedded in superfluid helium nanodroplets (clusters)49 1131–1150 (2006)
    28.60.+s, 33.80.−b, 36.40.−c, 42.62.Fi (all)
  7. G.N. Makarov “Selective processes of IR excitation and dissociation of molecules in gasdynamically cooled jets and flows48 37–76 (2005)
    33.80.−b, 42.62.Fi, 82.40.Fp, 82.50.Bc (all)
  8. G.N. Makarov “Spectroscopy of single molecules and clusters inside helium nanodroplets. Microscopic manifestation of 4He superfluidity47 217–247 (2004)
    33.80.−b, 42.62.Fi, 67.40.−w (all)
  9. G.N. Makarov “Studies on high-intensity pulsed molecular beams and flows interacting with a solid surface46 889–914 (2003)
    33.80.−b, 42.62.Fi, 82.40.Fp, 82.50.Bc (all)
  10. V.S. Lebedev, L.P. Presnyakov, I.I. Sobel’man “Radiative transitions in the molecular H2+ ion46 473–491 (2003)
    31.15.−p, 31.50.Gh, 33.80.−b (all)
  11. G.I. Lashkov “Energy transport involving triplet states in phase recording of light.29 288–289 (1986)
    33.80.−b, 33.70.Jg (all)
  12. A.I. Burshtein “Collapse and narrowing of spectra during condensation of gases28 636–638 (1985)
    33.70.Jg, 33.55.Be, 33.20.Sn, 33.20.Ea, 33.20.Tp, 33.20.Fb (all)
  13. N.B. Baranova, B.Ya. Zel’dovich “Two approaches to spatial dispersion in molecular scattering of light22 143–159 (1979)
    33.80.−b, 42.65.Cq
  14. V.S. Letokhov “Selective action of laser radiation on matter21 405–428 (1978)
    28.60.+s, 82.50.−m, 32.80.−t, 33.80.−b (all)
  15. T.P. Belikova, É.A. Sviridenkov, A.F. Suchkov “Ultrahigh-Sensitivity High-Speed Laser Spectrocopsy of Radicals and Molecules17 441–442 (1974)
    33.80.−b, 33.20.−t (all)
  16. B.F. Gordiets, A.I. Osipov et alVibrational relaxation in gases and molecular lasers15 759–785 (1973)
    33.15.Mt, 33.80.−b, 51.10.+y, 82.30.Lp (all)
  17. V.S. Letokhov “Nonlinear Narrow Molecular Resonances Induced by Laser Radiation, and Their Application in Spectroscopy and Quantum Electronics15 665–666 (1973)
    33.70.Jg, 33.20.Vq (all)
  18. A.M. Bonch-Bruevich, Yu.N. Denisyuk et alBoris Ivanovich Stepanov (on his sixtieth birthday)16 442–443 (1973)
    01.60.+q, 33.50.−j, 33.20.Vq, 33.80.−b, 42.50.−p (all)
  19. Ya.S. Bobovich, A.V. Bortkevich “Resonance stimulated raman scattering in molecular systems having normal and inverted populations of electronic states14 1–20 (1971)
    33.20.Fb, 33.20.Tp, 33.70.Ca, 33.70.Jg (all)
  20. V.S. Starunov, I.L. Fabelinskii “New Investigations of Thermal and Stimulated Molecular Scattering of Light12 690–691 (1970)
    42.65.Es, 33.20.Fb, 33.50.−j, 33.70.Jg, 33.80.Wz (all)
  21. O.P. Girin, N.G. Bakhshiev “The effect of the solvent on the positions and intensities of bands in infrared molecular spectra6 106–122 (1963)
    33.70.Jg, 33.20.Ea, 33.70.Fd (all)
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