PACS numbers

61.43.Hv Fractals; macroscopic aggregates (including diffusion-limited aggregates) 61.46.−w Structure of nanoscale materials 72.15.−v Electronic conduction in metals and alloys 73.63.−b Electronic transport in nanoscale materials and structures
  1. K.B. Fritzler, V.Ya. Prinz “3D printing methods for micro- and nanostructures62 54–69 (2019)
    32.80.Rm, 42.82.Cr, 61.46.−w, 68.65.−k, 81.20.−n (all)
  2. L.I. Miroshnichenko “Solar cosmic rays: 75 years of research61 323–352 (2018)
    61.05.fg, 61.46.−w, 75.50.Mm (all)
  3. B.M. Smirnov “Metal nanostructures: from clusters to nanocatalysis and sensors60 1236–1267 (2017)
    61.43.Hv, 61.46.−w, 72.15.−v, 73.63.−b (all)
  4. P.I. Arseev, V.N. Mantsevich et alTunneling features in semiconductor nanostructures60 1067–1086 (2017)
    05.60.Gg, 68.37.Ef, 73.40.Gk, 73.63.−b (all)
  5. E.A. Ekimov, M.V. Kondrin “Vacancy-impurity centers in diamond: perspectives of synthesis and applications60 539–558 (2017)
    33.15.Pw, 33.50.Dq, 42.50.Ex, 61.46.−w, 61.71.U-, 63.20.kp, 63.20.Pw, 78.55.−m, 81.10.−h (all)
  6. D.V. Kazantsev, E.V. Kuznetsov et alApertureless near-field optical microscopy60 259–275 (2017)
    07.60.−j, 07.79.Fc, 61.46.−w, 68.37.Ps, 68.65.Pq, 85.30.De, 87.64.−t (all)
  7. R.A. Andrievski “High-melting point compounds: new approaches and new results60 276–289 (2017)
    61.46.−w, 61.66.Fn, 71.15.−m, 71.15.Mb (all)
  8. V.A. Milichko, A.S. Shalin et alSolar photovoltaics: current state and trends59 727–772 (2016)
    42.25.Bs, 42.79.Wc, 61.46.−w, 71.20.Nr, 71.20.Rv, 72.40.+w, 72.80.Cw, 84.60.Jt (all)
  9. G.V. Kozlov “Structure and properties of particulate-filled polymer nanocomposites58 33–60 (2015)
    61.43.Hv, 61.46.Df, 62.20.de, 62.23.Pq (all)
  10. R.A. Andrievski “Nanostructures under extremes57 945–958 (2014)
    61.46.−w, 61.82.Rx, 62.20.F−, 65.80.−g, 81.65.Kn (all)
  11. Yu.I. Ustinovshchikov “Diffusion phase transitions in alloys57 670–683 (2014)
    61.46.−w, 64.75.−g (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. 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)
  14. G.E. Abrosimova “Evolution of the structure of amorphous alloys54 1227–1242 (2011)
    61.05.−a, 61.46.−w, 64.70.P−, 64.75.−g (all)
  15. 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)
  16. M.V. Avdeev, V.L. Aksenov “Small-angle neutron scattering in structure research of magnetic fluids53 971–993 (2010)
    61.05.fg, 61.46.−w, 75.50.Mm (all)
  17. A.I. Vorob’eva “Equipment and techniques for carbon nanotube research53 257–277 (2010)
    61.48.De, 73.63.−b, 81.05.ue (all)
  18. R.A. Andrievski, A.M. Glezer “Strength of nanostructures52 315 (2009)
    61.46.−w, 61.72.Mm, 62.25.−g (all)
  19. R.S. Berry, B.M. Smirnov “Phase transitions in various kinds of clusters52 137–164 (2009)
    36.40.Ei, 61.46.−w, 64.70.Hz (all)
  20. A.D. Pogrebnjak, A.P. Shpak et alStructures and properties of hard and superhard nanocomposite coatings52 29–54 (2009)
    61.46.−w, 62.20.Qp, 62.25.−g (all)
  21. 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)
  22. R.A. Andrievski “Hydrogen in nanostructures50 691–704 (2007)
    61.43.Dq, 61.46.−w, 61.48.+c, 81.07.−b (all)
  23. Yu.S. Nechaev “The nature, kinetics, and ultimate storage capacity of hydrogen sorption by carbon nanostructures49 563–591 (2006)
    61.46.−w, 61.48.+e, 68.43.−h, 89.30.−g (all)
  24. A.I. Romanenko, A.V. Okotrub et alHeterogeneous electronic states in carbon nanostructures with different dimensionalities and curvatures of the constituent graphene layers48 958–962 (2005)
    72.15.Gd, 72.15.Rn, 73.63.−b, 73.63.Bd, 73.63.Fg (all)
  25. V.V. Belov, S.Yu. Dobrokhotov et alA generalized adiabatic principle for electron dynamics in curved nanostructures48 962–968 (2005)
    03.65.Ge, 03.65.Nk, 73.63.−b (all)
  26. V.B. Timofeev “Electron correlation phenomena in semiconductor low-dimension structures and nanostructures47 1037–1044 (2004)
    71.35.−y, 71.36.+c, 73.43.−f, 73.63.−b (all)
  27. A.A. Andronov, M.N. Drozdov et alTransport in weak barrier superlattices and the problem of the terahertz Bloch oscillator46 755–758 (2003)
    42.55.Px, 71.70.Ej, 73.63.−b (all)
  28. V.F. Khirnyi, A.A. Kozlovskii “Nonlinear effects and domain instability in oxide ceramics46 657–663 (2003)
    72.15.−v, 74.25.−q, 74.72.−h (all)
  29. B.M. Smirnov “Kinetics of electrons in gases and condensed systems45 1251–1286 (2002)
    51.50.+v, 52.25.Fi, 72.15.−v (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.V. Zosimov, L.M. Lyamshev “Fractals in wave processes38 347–384 (1995)
    47.35.+i, 47.52.+j, 47.53.+n, 61.43.Hv (all)
  32. 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)
  33. E.P. Emets, A.E. Novoselova, P.P. Poluektov “In situ determination of the fractal dimensions of aerosol particles37 881–887 (1994)
    61.43.Hv, 47.53.+n, 82.70.Rr, 92.60.Mt (all)
  34. A.I. Olemskoi, A.Ya. Flat “Application of fractals in condensed-matter physics36 (12) 1087–1128 (1993)
    64.60.Ak, 47.53.+n, 61.43.Hv, 61.44.−n (all)
  35. B.M. Smirnov “Radiative processes involving fractal structures36 (7) 592–603 (1993)
    61.43.Hv, 52.80.−s (all)
  36. A.A. Likal’ter “Gaseous metals35 (7) 591–605 (1992)
    64.60.Ak, 64.60.Fr, 71.30.+h, 72.15.−v (all)
  37. B.M. Smirnov “Energetic processes in macroscopic fractal structures34 (6) 526–541 (1991)
    61.43.Hv, 68.35.Md, 82.70.Gg (all)
  38. A.A. Lushnikov, A.E. Negin et alAerogel structures in a gas34 (2) 160–166 (1991)
    61.43.Gt, 61.43.Hv, 61.80.Ba (all)
  39. B.M. Smirnov “Phenomena of growth of fractal systems32 941–942 (1989)
    01.30.Vv, 61.43.Hv, 47.53.+n (all)
  40. S.E. Esipov “Mechanisms of electrical conduction in solids32 737–737 (1989)
    72.20.−i, 72.15.−v (all)
  41. N.E. Alekseevskii, A.F. Andreev et alYurii Vasil’evich Sharvin (on his seventieth birthday)32 641–642 (1989)
    01.60.+q, 74.25.Ha, 72.15.−v (all)
  42. B.M. Smirnov “Properties of a fractal aggregate32 181–182 (1989)
    61.43.Hv, 61.43.Bn, 68.43.Jk (all)
  43. A.P. Silin “Heterojunctions and semiconductor superlattices30 753–754 (1987)
    01.30.Vv, 73.63.−b, 73.21.Cd, 73.40.−c (all)
  44. B.M. Smirnov “Fractal clusters29 481–505 (1986)
    61.43.Hv, 68.43.Jk, 82.70.Rr, 66.30.Dn (all)
  45. A.M. Belyantsev, Yu.A. Romanov “The classical superlattice—an artificial dielectric, nonlinear hf effect28 521–522 (1985)
    72.20.Ht, 73.63.−b, 72.80.Ey (all)
  46. Z.D. Kvon, I.G. Neizvestnyi, V.N. Ovsyuk “Effect of a surface superlattice on a two-dimensional electron gas28 528–530 (1985)
    73.21.Cd, 73.20.At, 73.63.−b (all)
  47. I.M. Tsidil’kovskii “Electrons and holes in an inertial-force field18 161–166 (1975)
    03.30.+p, 72.15.−v, 72.10.Bg (all)
  48. V.S. Edel’man “Magnetoplasma waves in bismuth13 583–598 (1971)
    72.30.+q, 72.15.−v, 71.18.+y (all)
  49. A.Ya. Blank, M.I. Kaganov “Ferromagnetic resonance and plasma effects in metals10 536–558 (1968)
    76.50.+g, 72.30.+q, 72.15.−v, 75.50.Cc, 75.30.Ds (all)
  50. E.D. Eidel’man, A.V. Arkhipov “Field emission from carbon nanostructures: models and experiment”, accepted
    79.70.+q, 73.63.−b, 71.38.Ht (all)
  51. A.I. Gusev “High-energy ball milling of nonstoichiometric compounds”, accepted
    81.07.Wx, 61.66.Fn, 61.82.Rx, 61.46.−w, 61.10.Nz, 61.12.Ld (all)
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