PACS numbers

42.62.Fi Laser spectroscopy 87.14.Ee Proteins 87.15.Mi Spectra, photodissociation, and photoionization; luminescence 87.16.Uv Active transport processes 87.64.Pj Mossbauer spectroscopy
  1. G.N. Makarov “New approaches to molecular laser separation of uranium isotopes67 44–54 (2024)
    07.77.Gx, 28.60.+s, 33.80-b, 36.40.−c, 42.62.−b, 42.62.Fi, 82.50.Bc (all)
  2. G.N. Makarov “Towards molecular laser separation of uranium isotopes65 531–566 (2022)
    07.77.Gx, 28.60.+s, 33.80.−b, 36.40.−c, 42.62.−b, 42.62.Fi, 82.50.Bc (all)
  3. K.Yu. Khabarova, N.N. Kolachevsky “Proton charge radius64 1038–1048 (2021)
    06.20.Jr, 06.30.Ft, 12.20.Fv, 32.10.Fn, 32.30.Jc, 42.62.Fi (all)
  4. 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)
  5. A.A. Makarov, E.A. Ryabov “On a half-forgotten but very powerful method for coherent spectroscopy of molecules62 257–265 (2019)
    33.20.Ea, 42.62.Fi, 42.65.−k (all)
  6. 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)
  7. M.N. Sapozhnikov “Fifty years of selective laser spectroscopy of solids: a history, general principles and applications61 (4) (2018)
    42.62.−b, 42.62.Fi, 61.43.−j, 61.72.−y, 63.20.kp, 78.20.−e, 78.40.Me, 78.55.−m, 78.66.−w, 87.15.−v, 87.15.M− (all)
  8. K.Yu. Khabarova, E.S. Kalganova, N.N. Kolachevsky “Accurate frequency and time dissemination in the optical domain61 203–211 (2018)
    06.20.Jr, 06.30.Ft, 12.20.Fv, 32.10.Fn, 32.30.Jc, 42.62.Fi (all)
  9. 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)
  10. A.V. Taichenachev, V.I. Yudin, S.N. Bagayev “Ultraprecision optical frequency standards using ultracold atoms: state of the art and prospects59 184–195 (2016)
    42.50.Gy, 42.62.Fi, 42.62.Eh (all)
  11. 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)
  12. G.N. Makarov “Laser applications in nanotechnology: nanofabrication using laser ablation and laser nanolithography56 643–682 (2013)
    36.40.−c, 42.62.Fi, 61.46.−w, 81.05.ue, 81.07.−b, 81.16.−c, 81.16.Nd (all)
  13. A.A. Makarov, A.L. Malinovsky, E.A. Ryabov “Intramolecular vibrational redistribution: from high-resolution spectra to real-time dynamics55 977–1007 (2012)
    05.45.−a, 05.45.Mt, 33.20.Ea, 33.20.Fb, 33.80.Wz, 42.62.Fi (all)
  14. G.N. Makarov “Kinetic methods for measuring the temperature of clusters and nanoparticles in molecular beams54 351–370 (2011)
    07.77.Gx, 36.40.−c, 36.40.Ei, 42.62.Fi, 81.07.Nb, 82.50.Hp (all)
  15. G.N. Makarov “Experimental methods for determining the melting temperature and the heat of melting of clusters and nanoparticles53 179–198 (2010)
    07.77.Gx, 32.80.−t, 36.40.−c, 36.40.Ei, 42.62.Fi, 81.07.−b (all)
  16. G.N. Makarov “The spectroscopy of clusters by intense pulses of VUV radiation from free electron lasers52 461–486 (2009)
    32.80.−t, 36.40.−c, 41.60.Cr, 42.55.Vc, 42.62.Fi, 52.50.−b, 82.50.Hp (all)
  17. V.S. Davydov, V.M. Shabaev, N.N. Kolachevsky “Selected problems in hydrodynamics, quantum electrodynamics, and laser spectroscopy (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 14 May 2008)51 1171–1190 (2008)
    01.10.Fv, 06.20.Jr, 06.30.Ft, 12.20.−m, 12.20.Ds, 12.20.Fv, 32.10.Fn, 32.30.Jc, 31.30.Gs, 31.30.Jv, 42.62.Fi, 43.30.+m, 43.60.+d, 92.10.Vz (all)
  18. N.N. Kolachevsky “High-precision laser spectroscopy of cold atoms and the search for the drift of the fine structure constant51 1180–1190 (2008)
    06.20.Jr, 06.30.Ft, 12.20.Fv, 32.10.Fn, 32.30.Jc, 42.62.Fi (all)
  19. 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)
  20. S.V. Chekalin “The unique femtosecond spectrometric complex as an instrument for ultrafast spectroscopy, femtochemistry, and nanooptics49 634–641 (2006)
    01.10.Fv, 42.62.Be, 42.62.Fi, 42.65.Re (all)
  21. 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)
  22. 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)
  23. 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)
  24. A.M. Zheltikov, N.I. Koroteev “Coherent four-wave mixing in excited and ionized gas media: four-photon spectrochronography, ellipsometry, and nonlinear-optical imaging of atoms and ions42 321–351 (1999)
    42.62.Fi, 42.65.k, 51.70.+f, 52.25.b (all)
  25. S.A. Akhmanov, V.E. Gusev “Laser excitation of ultrashort acoustic pulses: New possibilities in solid-state spectroscopy, diagnostics of fast processes, and nonlinear acoustics35 (3) 153–191 (1992)
    43.35.Ud, 42.62.Fi, 42.65.Re, 42.60.Jf, 43.25.−x, 01.30.Rr (all)
  26. S.A. Akhmanov “Physics of lasers, laser physics, and optical physics34 (7) 641–643 (1991)
    01.30.Vv, 42.62.Fi, 42.55.Rz, 42.60.−v, 42.65.−k, 42.50.−p (all)
  27. I.L. Shumai “Introduction to nonlinear laser spectroscopy33 (5) 397–398 (1990)
    42.62.Fi, 42.65.−k, 01.30.Vv (all)
  28. V.I. Gol’danskii, V.V. Kuz’min “Spontaneous breaking of mirror symmetry in nature and the origin of life32 1–29 (1989)
    87.14.Ee, 87.15.By, 36.20.Fz (all)
  29. R.A. Avarmaa, K.K. Rebane “Zero-phonon lines in the spectra of chlorophyll-type molecules embedded in low-temperature solid-state matrices31 225–240 (1988)
    87.15.Mi, 42.50.Md, 87.15.Nn, 82.50.−m (all)
  30. I.R. Nabiev, R.G. Efremov, G.D. Chumanov “Surface-enhanced Raman scattering and its application to the study of biological molecules31 241–262 (1988)
    87.15.Mi, 87.64.Je, 78.30.−j, 33.20.Fb (all)
  31. E.I. Volkov “Biophysical effects of steady magnetic fields31 179–180 (1988)
    87.50.Mn, 01.30.Cc, 01.30.Vv, 87.15.Mi, 87.15.Rn, 87.16.−b (all)
  32. V.A. Noskin “Laser correlation spectroscopy of quasielastic scattering30 913–914 (1987)
    42.62.Fi, 34.50.−s, 36.20.−r, 87.64.Cc, 82.35.−x (all)
  33. A.Yu. Grosberg, A.R. Khokhlov “Phase transitions in polymer and biopolymer systems29 797–799 (1986)
    87.15.By, 36.20.Fz, 87.15.He, 87.14.Ee, 87.14.Gg, 87.15.Rn (all)
  34. M.V. Vol’kenshtein “Evolution ofbiopolymers and biological evolution29 799–800 (1986)
    87.15.By, 87.15.He, 87.23.Kg, 87.14.Ee, 87.16.−b, 36.20.Fz (all)
  35. M.V. Vol’kenshtein “The essence of biological evolution27 515–537 (1984)
    87.23.−n, 87.14.Ee, 87.14.Gg, 87.15.By (all)
  36. D.S. Chernavskii “Tunneling transport of electrons in biology27 460–461 (1984)
    87.15.Mi, 87.15.By, 87.16.Uv, 87.16.Sr, 87.15.Rn (all)
  37. A.B. Rubin “Molecular mechanisms for electron transport in biological systems27 461–462 (1984)
    87.15.Mi, 87.16.Uv, 87.14.Ee, 87.64.Pj, 42.62.Fi (all)
  38. V.I. Gol’danskii, Yu.F. Krupyanskii “Dynamics of biopolymers and the glass model of proteins and DNA27 462–463 (1984)
    87.68.+z, 87.14.Ee, 87.14.Gg, 87.15.By, 87.15.Mi (all)
  39. A.I. Ansel’m, V.L. Ginzburg et alSemen Efimovich Bresler (Obituary)27 316–317 (1984)
    01.60.+q, 01.30.Ee, 36.20.Fz, 82.35.−x, 87.14.Ee, 01.30.M− (all)
  40. V.S. Letokhov, V.P. Chebotaev “Resonance phenomena in saturation of absorption by laser radiation17 467–491 (1975)
    42.50.Gy, 42.60.Da, 42.62.Fi (all)
  41. S.E. Manoilov, E.N. Chistyakova et alEffects of Millimeter-band Electromagnetic Waves on Certain Aspects of Protein Metabolism in Bacteria16 573–574 (1974)
    87.50.Jk, 87.15.Rn, 87.14.Ee (all)
  42. B.K. Vainshtein “Three-dimensional electron microscopy of biological macromolecules16 185–206 (1973)
    87.64.Ee, 36.20.Ey, 87.14.Ee, 87.15.By (all)
  43. M.V. Vol’kenshtein “Physics and biology16 207–216 (1973)
    87.15.By, 36.20.Ey, 87.14.Ee, 02.10.Ud (all)
  44. D.S. Chernavskii “Modeling of Certain Biological Processes15 352–353 (1972)
    87.16.Uv, 87.16.Dg, 87.15.Mi, 87.15.Rn, 87.15.Aa (all)
  45. G.A. Askar’yan, V.G. Mikhalevich, G.P. Shipulo “Aureole Refraction and Nonlinear Scattering of Powerful Light by Inhomogeneities in Transparent Media14 370–371 (1971)
    78.20.Ci, 42.65.−k, 42.62.Fi (all)
  46. S.E. Bresler “PROBLEMS OF BIOPHYSICS12 534–564 (1970)
    87.16.Tb, 87.16.Dg, 87.14.Cc, 87.15.By, 87.15.Mi, 87.14.Ee (all)
  47. M.V. Vol’kenshtein “Physics of muscle contraction13 269–288 (1970)
    87.19.Ff, 87.19.Rr, 87.14.Ee, 87.15.By, 87.15.La, 87.15.Nn (all)
  48. V.A. Zubov, M.M. Sushchinskii, I.K. Shuvalov “Modern trends in the spectroscopy of Raman scattering of light9 346–369 (1966)
    42.65.Dr, 42.62.Fi (all)
  49. B.K. Vainshtein “X-ray structure analysis of globular proteins9 251–275 (1966)
    87.14.Ee, 87.15.By, 87.15.Nn, 87.64.Gb (all)
  50. S.E. Bresler “Some problems of molecular biology and physics7 789–796 (1965)
    87.15.Rn, 87.14.Ee, 87.15.By, 87.15.Cc, 87.17.Ee (all)
  51. V.N. Tsvetkov “Flow birefringence and the structure of macromolecules6 639–681 (1964)
    78.20.Fm, 61.25.Hq, 87.14.Ee, 87.14.Gg, 87.15.By, 87.15.Mi (all)
  52. G.P. Gurinovich, N.D. Zhevandrov, K.N. Solov’ev “Eleventh Ñonference on luminescence6 590–605 (1964)
    78.55.Bq, 87.15.Mi (all)
  53. V.Yu. Gavrilov, Yu.N. Zograf “The nature of the biochemical code5 634–648 (1963)
    87.14.Gg, 87.15.By, 36.20.Fz, 87.15.Rn, 87.14.Ee (all)
  54. N.M. Chernavskaya, D.S. Chernavskii “Periodic phenomena in photosynthesis3 850–865 (1961)
    87.15.Mi, 87.16.−b, 87.15.Rn (all)
  55. F.F. Litvin, Yu.A. Vladimirov, A.A. Krasnovskii “The chemiluminescence of chlorophyll in photochemical reactions3 434–439 (1960)
    87.15.Mi, 87.15.Rn, 82.50.−m (all)
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