PACS numbers

34.50.−s Scattering of atoms and molecules 36.40.−c Atomic and molecular clusters 43.25.Cb Macrosonic propagation, finite amplitude sound; shock waves 79.20.Rf Atomic, molecular, and ion beam impact and interactions with surfaces 81.15.−z Methods of deposition of films and coatings; film growth and epitaxy
  1. I.K. Gainullin “Resonant charge transfer during ion scattering on metallic surfaces63 (9) (2020)
    02.70.−c, 34.35.+a, 73.20.At, 73.40.Gk, 73.63.−b, 79.20.Rf (all)
  2. I.M. Dremin “Ultraperipheral nuclear interactions63 (8) (2020)
    12.20.−m, 25.75.−q, 34.50.−s (all)
  3. 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)
  4. V.N. Polkovnikov, N.N. Salashchenko et alBeryllium-based multilayer X-ray optics63 83–95 (2020)
    07.60.−j, 07.85.Fv, 42.79.−e, 68.35.Ct, 68.35.Fx, 68.47.De, 68.55.A, 68.65.Ac, 81.15.−z (all)
  5. 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)
  6. 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)
  7. 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)
  8. M. Ganeva, P.V. Kashtanov et alClusters as a diagnostics tool for gas flows58 579–588 (2015)
    36.40.−c, 47.15.−x, 47.85.L− (all)
  9. R.S. Berry, B.M. Smirnov “Modeling of configurational transitions in atomic systems56 973–998 (2013)
    36.40.−c, 36.40.Ei, 64.70.D−, 71.15.Mb, 81.16.Hc, 82.30.−b (all)
  10. 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)
  11. B.M. Smirnov “Processes involving clusters and small particles in a buffer gas54 691–721 (2011)
    36.40.−c, 36.40.Sx, 61.43.Hv, 64.70.D−, 68.37.Hk (all)
  12. 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)
  13. 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)
  14. 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)
  15. V.I. Balykin, A.N. Ryabtsev et alOn the 40th anniversary of the Institute of Spectroscopy of the Russian Academy of Sciences (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 8 October 2008)52 275–309 (2009)
    03.75.−b, 03.75.Hh, 05.30.Jp, 07.07.−a, 32.30.−r, 32.30.Jc, 33.20.−t, 36.40.−c, 37.20.+j, 42.82.Cr, 61.43.−j, 63.20.−e, 63.50.−x, 67.25.dw, 71.35.Lk, 71.36.+c, 78.30.−j, 78.47.−p, 78.55.−m, 81.07.−b,, 87.64.−t, 95.30.Ky, 97.10.−q (all)
  16. B.S. Dumesh, A.V. Potapov, L.A. Surin “Spectroscopy of small helium clusters and ’nanoscopic’ superfluidity: HeN — CO, N = 2 — 20...52 294–298 (2009)
    05.30.Jp, 33.20.−t, 36.40.−c, 67.25.dw (all)
  17. B.A. Gurovich, K.E. Prikhod’ko “Physical mechanisms underlying the selective removal of atoms52 165–178 (2009)
    79.20.Rf, 81.07.−b, 81.16.−c (all)
  18. V.Z. Kresin, Yu.N. Ovchinnikov “‘Giant’ strengthening of superconducting pairing in metallic nanoclusters: large enhancement of Tc and potential for room-temperature superconductivity51 427–435 (2008)
    36.40.−c, 74.70.−b, 74.78.Na (all)
  19. Yu.B. Bolkhovityanov, O.P. Pchelyakov “GaAs epitaxy on Si substrates: modern status of research and engineering51 437–456 (2008)
    61.72.Lk, 62.25.−g, 81.05.Cy, 81.05.Ea, 81.15.−z, 85.40.Sz (all)
  20. G.N. Makarov “Cluster temperature. Methods for its measurement and stabilization51 319–353 (2008)
    32.80.−t, 34.50.−s, 36.40.−c, 43.25.Cb, 79.20.Rf, 81.07.−b (all)
  21. I. Božović “Experiments with atomically smooth thin films of cuprate superconductors: strong electron-phonon coupling and other surprises51 170–180 (2008)
    74.45.+c, 74.78.−w, 81.15.−z (all)
  22. V.P. Krainov, B.M. Smirnov, M.B. Smirnov “Femtosecond excitation of cluster beams50 907–931 (2007)
    36.40.−c, 52.40.Hf, 52.40.Mj, 61.46.−w (all)
  23. P.V. Kashtanov, B.M. Smirnov, R. Hippler “Magnetron plasma and nanotechnology50 455–488 (2007)
    36.40.−c, 52.80.Sm, 61.46.Bc (all)
  24. B.M. Smirnov “Clusters and phase transitions50 354–358 (2007)
    01.10.Fv, 36.40.−c, 61.46.Bc, 64.70.Dv (all)
  25. B.S. Dumesh, L.A. Surin “Unusual rotations in helium and hydrogen nanoclusters and ’nanoscopic’ superfluidity49 1113–1129 (2006)
    05.30.Jp, 33.20.−t, 36.40.−c, 67.40.−w (all)
  26. 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)
  27. G.N. Makarov “Extreme processes in clusters impacting on a solid surface49 117–166 (2006)
    34.50.−s, 36.40.−c, 43.25.Cb, 79.20.Rf, 81.15.−z (all)
  28. A.D. Pogrebnyak, Yu.N. Tyurin “Modification of material properties and coating deposition using plasma jets48 487–514 (2005)
    52.77.−j, 81.15.−z, 81.65.−b, 82.45.Bb (all)
  29. A.M. Miterev “Theoretical aspects of the formation and evolution of charged particle tracks45 1019–1050 (2002)
    07.77.−n, 34.50.−s, 82.55.+e (all)
  30. Yu.B. Bolkhovityanov, O.P. Pchelyakov, S.I. Chikichev “Silicon-germanium epilayers: physical fundamentals of growing strained and fully relaxed heterostructures44 655–680 (2001)
    61.72.Lk, 62.25.+g, 73.40.Kp, 81.15.−z (all)
  31. B.A. Gurovich, D.I. Dolgii et alControlled ion-beam transformation of electrical, magnetic, and optical materials properties44 95–105 (2001)
    61.80.Jh, 61.82.Ms, 68.55.−a, 73.50.−h, 73.61.−r, 79.20.Rf, 81.05.−t (all)
  32. V.P. Krainov, M.B. Smirnov “The evolution of large clusters under the action of ultrashort superintense laser pulses43 901–920 (2000)
    36.40.−c, 52.40.Nk, 61.46.+w, 85.42.+m (all)
  33. V.I. Boiko, A.N. Valyaev, A.D. Pogrebnyak “Metal modification by high-power pulsed particle beams42 1139–1166 (1999)
    41.75.−i, 61.80.−x, 81.15.−z, 81.40.−z (all)
  34. V.N. Bezmel’nitsyn, A.V. Eletskii, M.V. Okun’ “Fullerenes in solutions41 1091–1114 (1998)
    36.40.−c, 61.46.+w, 61.48.+c (all)
  35. S.A. Kukushkin, A.V. Osipov “Thin-film condensation processes41 983–1014 (1998)
    68.35.−p, 68.18.+p, 68.15.+e, 81.15.−z (all)
  36. A.V. Eletskii, B.M. Smirnov “Fullerenes and carbon structures38 935–964 (1995)
    36.40.−c, 61.46.+w, 61.66.Bi, 74.70.Wz (all)
  37. E.F. Mikhailov, S.S. Vlasenko “The generation of fractal structures in gaseous phase38 253–271 (1995)
    36.40.−c, 47.53.+n, 61.43.Hv (all)
  38. B.M. Smirnov “Systems of atoms with a short-range interaction35 (12) 1052–1079 (1992)
    34.50.−s, 51.20.+d, 68.03.Cd, 64.70.Dv (all)
  39. V.B. Timofeev “Current state of semiconductor silicon technology and material science33 (6) 492–493 (1990)
    01.30.Vv, 85.40.−e, 81.10.−h, 81.15.−z (all)
  40. A.V. Eletskii, B.M. Smirnov “Properties of cluster ions32 763–782 (1989)
    36.40.−c, 33.80.Gj (all)
  41. 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)
  42. O.A. Pankratov “Two-dimensional systems: physics and new devices30 754–755 (1987)
    01.30.Vv, 81.15.−z, 71.55.−i, 73.43.−f (all)
  43. V.B. Leonas, I.D. Rodionov “High-energy scattering of atoms and molecules28 332–348 (1985)
  44. B.M. Smirnov “Van der Waals molecules27 1–18 (1984)
    33.80.Eh, 33.80.Gj, 33.20.Sn, 34.50.−s, 34.30.+h (all)
  45. I.A. Akhiezer, L.N. Davydov “Theory of electronic stopping of heavy ions in metals22 804–812 (1979)
    79.20.Nc, 34.50.−s, 34.40.+n
  46. S.É. Frish “Role of Atom-Atom and Atom-Molecule Collisions in the Excitation and Ionization of Atoms15 525–526 (1973)
  47. Ya.B. Zeldovich, V.S. Popov “Electronic structure of superheavy atoms14 673–694 (1972)
    31.15.Md, 32.10.Dk, 36.10.Dr, 34.50.−s (all)
  48. U.A. Arifov “Basic Achievements and Problems in Research on the Interaction of Atomic Particles with the Surfaces of Solids14 787–788 (1972)
  49. E.E. Nikitin, M.Ya. Ovchinnikova “Interference phenomena in atomic scattering14 394–412 (1972)
    34.70.+e, 34.50.−s, 34.10.+x (all)
  50. V.B. Leonas “Studies of short-range intermolecular forces15 266–281 (1972)
    34.20.Gj, 34.50.−s, 34.10.+x (all)
  51. A.S. Tibilov, A.M. Shukhtin “Generation of Radiation by Ion-ion Recombination12 586–587 (1970)
  52. I.Ya. Fugol’ “Processes of elastic scattering of metastable helium atoms in helium gas12 182–194 (1969)
    34.50.−s, 34.10.+x (all)
  53. G.F. Drukarev, L.A. Sena “Third All-union conference on physics of electronic and atomic collisions (Khar'kov, 21–28 June 1965)9 631–636 (1967)
    01.30.Cc, 34.50.−s, 34.80.−i (all)
  54. I.A. Abroyan, M.A. Eremeev, N.N. Petrov “Excitation of electrons in solids by relatively slow atomic particles10 332–367 (1967)
    79.20.Rf, 79.20.Fv, 68.49.Jk (all)
  55. Ya.M. Fogel’ “Secondary ion emission10 17–39 (1967)
    68.49.Sf, 79.20.Rf (all)
  56. D.A. Kirzhnits, Yu.E. Lozovik “Plasma oscillations of the electron shell of the atom9 340–345 (1966)
    52.35.Fp, 34.50.−s, 32.70.Cs (all)
  57. R.I. Garber, A.I. Fedorenko “Focusing of atomic collisions in crystals7 479–507 (1965)
    34.50.Dy, 79.20.Rf, 61.50.−f (all)
  58. V.S. Nikolaev “Electron capture and loss by fast ions in atomic collisions8 269–294 (1965)
    34.70.+e, 34.50.−s, 34.10.+x (all)
  59. V.B. Leonas “The present state and some new results of the molecular-beam method7 121–144 (1964)
    39.10.+j, 34.20.Gj, 34.50.Dy, 79.20.Rf (all)
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