PACS numbers

71.38.Ht Self-trapped or small polarons 73.63.−b Electronic transport in nanoscale materials and structures 79.70.+q Field emission, ionization, evaporation, and desorption
  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. E.D. Eidelman, A.V. Arkhipov “Field emission from carbon nanostructures: models and experiment63 648–667 (2020)
    71.38.Ht, 73.63.−b, 79.70.+q (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. A.S. Bugaev, P.A. Eroshkin et alLow-power X-ray tubes: the current status56 691–703 (2013)
    07.85.Fv, 41.50.+h, 79.70.+q (all)
  6. A.I. Vorob’eva “Equipment and techniques for carbon nanotube research53 257–277 (2010)
    61.48.De, 73.63.−b, 81.05.ue (all)
  7. N.M. Blashenkov, G.Ya. Lavrent’ev “Surface-ionization field mass-spectrometry studies of nonequilibrium surface ionization50 53–78 (2007)
    33.80.Eh, 36.20.−r, 68.43.−h, 79.70.+q (all)
  8. A.A. Shklyaev, M. Ichikawa “Fabrication of germanium and silicon nanostructures using a scanning tunneling microscope49 887–903 (2006)
    68.37.Ef, 79.70.+q, 81.16.Ta (all)
  9. 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)
  10. 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)
  11. 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)
  12. 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)
  13. A.T. Rakhimov “Autoemission cathodes (cold emitters) on nanocrystalline carbon and nanodiamond films: physics, technology, applications43 926–929 (2000)
    79.60.Jv, 79.70.+q, 85.45.−w, 85.60.Pg (all)
  14. A.P. Silin “Heterojunctions and semiconductor superlattices30 753–754 (1987)
    01.30.Vv, 73.63.−b, 73.21.Cd, 73.40.−c (all)
  15. 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)
  16. 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)
  17. M.I. Klinger “Self-trapped electron and hole states28 391–413 (1985)
    71.35.Aa, 71.38.Ht (all)
  18. M.D. Gabovich “Liquid-metal ion emitters26 447–455 (1983)
  19. S.A. Azimov, Yu.K. Vishchakas et alÉmmanuil ll’ich Adirovich (obituary)18 810–811 (1975)
    01.60.+q, 79.40.+z, 79.70.+q (all)
  20. S.P. Bugaev, E.A. Litvinov et alExplosive emission of electrons18 51–61 (1975)
    79.40.+z, 79.70.+q, 82.45.Fk (all)
  21. B.Yu. Mirgorodskii, D.Ya. Kostyukevich, D.A. Makarchenko “Demonstration microscope with field emission16 553–556 (1974)
    07.78.+s, 79.70.+q (all)
  22. A.L. Suvorov, V.V. Trebukhovskii “Mass analysis and field-ion microscopy15 471–485 (1973)
    79.70.+q, 68.37.Vj, 32.80.Dz (all)
  23. V.A. Tsukerman, L.V. Tarasova, S.I. Lobov “New sources of X Rays14 61–71 (1971)
    07.85.Fv, 79.70.+q (all)
  24. E.M. Nadgornyĭ “The properties of whiskers5 462–477 (1962)
    68.70.+w, 81.40.Jj, 81.40.Lm, 61.72.Hh, 75.60.Ch, 79.70.+q (all)
  25. E.Ya. Zandberg, N.I. Ionov “Surface ionization2 255–281 (1959)
    73.30.+y, 79.70.+q, 68.47.De, 68.47.Fg, 68.35.Md, 73.20.At (all)
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