PACS numbers

61.46.+w Nanoscale materials: clusters, nanoparticles, nanotubes, and nanocrystals 62.25.+g Mechanical properties of nanoscale materials 81.07.−b Nanoscale materials and structures: fabrication and characterization 85.85.+j Micro- and nano-electromechanical systems (MEMS/NEMS) and devices
  1. 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)
  2. V.Yu. Khomich, V.A. Shmakov “Mechanisms of direct laser nanostructuring of materials58 455–465 (2015)
    79.20.Eb, 81.07.−b (all)
  3. A.F. Danilyuk, S.A. Kononov et alAerogel Cherenkov detectors in colliding beam experiments58 503–511 (2015)
    29.20.D−, 29.40.Ka, 33.20.Fb, 81.07.−b (all)
  4. 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)
  5. R.A. Andrievski “Metallic nano/microglasses: new approaches in nanostructured materials science56 261–268 (2013)
    61.43.Dq, 62.25.−g, 81.05.Kf, 81.07.−b (all)
  6. A.M. Glezer “Creation principles of new-generation multifunctional structural materials55 522–529 (2012)
    61.43.−j, 61.46.+w, 62.50.−p (all)
  7. 50 years of the Condensed Matter Physics Research Council of the Russian Academy of Sciences (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 9 November 2011)55 522–529 (2012)
    01.10.Fv, 61.43.−j, 61.46.+w, 62.50.−p (all)
  8. Ya.S. Greenberg, Yu.A. Pashkin, E. Il’ichev “Nanomechanical resonators55 382–407 (2012)
    61.46.−w, 62.25.−g, 81.07.−b, 81.07.Oj (all)
  9. 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)
  10. 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)
  11. V.I. Balykin “Atom optics and nanotechnology52 275–282 (2009)
    03.75.−b, 37.20.+j, 81.07.−b (all)
  12. 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)
  13. V.V. Klimov, Ya.N. Istomin, Yu.A. Kosevich “Plasma phenomena in nanostructures and neutron stars. Scientific session of the Physical Sciences Division of the Russian Academy of Sciences (26 March 2008)51 839–859 (2008)
    01.10.Fv, 01.30.Cc, 61.46.Bc, 71.45.Gm, 81.07.−b, 52.27.Ep, 97.10.Ld, 97.60.Jd,, 63.22.−m (all)
  14. V.V. Klimov “Nanoplasmonics51 839–844 (2008)
    61.46.Bc, 71.45.Gm, 81.07.−b (all)
  15. 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)
  16. A.A. Shklyaev, M. Ichikawa “Extremely dense arrays of germanium and silicon nanostructures51 133–161 (2008)
    78.55.Ap, 81.07.−b, 81.16.−c (all)
  17. R.A. Andrievski “Hydrogen in nanostructures50 691–704 (2007)
    61.43.Dq, 61.46.−w, 61.48.+c, 81.07.−b (all)
  18. V.I. Balykin “Parallel fabrication of nanostructures via atom projection50 744–749 (2007)
    01.10.Fv, 81.07.−b, 81.16.−c, 81.16.Ta (all)
  19. Yu.E. Lozovik, A.M. Popov “Properties and nanotechnological applications of nanotubes50 749–761 (2007)
    01.10.Fv, 61.46.Fg, 85.85.+j, 87.80.Mj (all)
  20. A.V. Eletskii “Mechanical properties of carbon nanostructures and related materials50 225–261 (2007)
    61.46.+w, 62.25.+g, 81.07.−b, 85.85.+j (all)
  21. L.P. Mezhov-Deglin “Impurity nanocluster structures in liquid helium48 1061–1070 (2005)
    61.46.+w, 67.40.Yv, 76.30.−v (all)
  22. A.V. Eletskii “Sorption properties of carbon nanostructures47 1119–1154 (2004)
    61.46.+w, 68.43.−h, 81.07.De (all)
  23. B.M. Smirnov “Generation of cluster beams46 589–628 (2003)
    36.40.Sx, 36.40.Wa, 52.50.Jm, 61.46.+w (all)
  24. V.A. Davydov “A magnetically ordered state of carbon based on polymerized fullerene C6045 1175–1178 (2002)
    61.46.+w, 75.50.Dd (all)
  25. A.K. Zvezdin, V.V. Kostyuchenko et alMagnetic molecular nanoclusters in strong magnetic fields45 1183–1185 (2002)
    61.46.+w, 75.50.Xx (all)
  26. A.A. Mukhin, A.S. Prokhorov et alSubmillimeter spectroscopy of electron transitions and the macroscopic quantum tunneling of magnetization in molecular nanoclusters45 1186–1191 (2002)
    61.46.+w, 75.50.Xx (all)
  27. R.V. Galiulin “Crystallographic picture of the world45 221–225 (2002)
    05.45.Df, 61.46.+w, 61.50.Ah (all)
  28. M.V. Feigel’man, V.V. Ryazanov, V.B. Timofeev “Chernogolovka 2000: Mesoscopic and strongly correlated electron systems The current state of quantum mesoscopics44 1045–1059 (2001)
    01.10.Fv, 68.65.−k, 71.27.+a, 81.07.−b (all)
  29. 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)
  30. G.V. Kozlov, V.U. Novikov “A cluster model for the polymer amorphous state44 681–724 (2001)
    61.41.+e, 61.43.−j, 61.43.Bn, 61.43.Hv, 61.46.+w (all)
  31. 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)
  32. B.M. Smirnov “Cluster plasma43 453–491 (2000)
    36.40.Vz, 36.40.Wa, 61.46.+w, 85.42.+m (all)
  33. A.V. Eletskii “Endohedral structures43 111–137 (2000)
    36.40.+d, 61.46.+w, 61.48.+c, 85.42.+m (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. A.I. Gusev “Effects of the nanocrystalline state in solids41 49–76 (1998)
    61.46.+w, 85.42.+m
  36. B.M. Smirnov “Processes in plasma and gases involving clusters40 1117–1147 (1997)
    36.40.Vz, 36.40.Wa, 61.46.+w, 85.42.+m (all)
  37. A.V. Eletskii “Carbon nanotubes40 899–924 (1997)
    61.46.+w, 85.42.+m
  38. V.V. Brazhkin, A.G. Lyapin et alNew crystalline and amorphous carbon modifications produced from fullerite at high pressure40 969–971 (1997)
  39. Yu.E. Lozovik, A.M. Popov “Formation and growth of carbon nanostructures: fullerenes, nanoparticles, nanotubes and cones40 717–737 (1997)
    61.46.+w, 68.70.+w, 85.42.+m (all)
  40. R.Z. Bakhtizin, T. Hashizume et alScanning tunneling microscopy of fullerenes on metal and semiconductor surfaces40 275–290 (1997)
    68.35.Bs, 61.16.Ch, 61.46.+w, 68.65.+g (all)
  41. V.V. Brazhkin, A.G. Lyapin “Transformations of C60 fullerite under high-pressure high-temperature conditions39 837–840 (1996)
    36.40.Ei, 61.46.+w (all)
  42. 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)
  43. B.M. Smirnov “Melting of clusters with pair interaction of atoms37 1079–1096 (1994)
    36.40.+d, 61.46.+w, 64.70.Dv (all)
  44. K.V. Larionov, P.B. Sorokin “Atomically thin films: current progress”, accepted
    61.46.+w, 61.46.−w, 81.05.ue, 68.90.+g (all)
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