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Issue 4, 2024
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PACS numbers

73.22.−f Electronic structure of nanoscale materials and related systems 73.63.Fg Nanotubes 81.07.De Nanotubes
  1. A.N. Azarevich, A.V. Bogach et alOn the problem of detecting Majorana fermions in heat capacity and Hall effect measurements in the Kondo insulator YbB1267 314–321 (2024)
    71.27.+a, 73.22.−f, 75.47.−m (all)
  2. V.M. Murav’ev, I.V. Kukushkin “Collective plasma excitations in two-dimensional electron systems63 975–993 (2020)
    73.21.−b, 73.22.−f, 73.43.Lp, 78.70.Gq (all)
  3. K.V. Reich “Conductivity of quantum dot arrays63 994–1014 (2020)
    71.30.+h, 72.10.−d, 72.15.Rn, 72.20.Ee, 72.80.Ng, 73.21.La, 73.22.−f, 73.23.Hk, 73.40.Gk, 81.07.Bc (all)
  4. L.A. Chernozatonskii, A.A. Artyukh “Quasi-two-dimensional transition metal dichalcogenides: structure, synthesis, properties and applications61 2–28 (2018)
    73.22.−f
  5. G.E. Volovik “Exotic Lifshitz transitions in topological materials61 89–98 (2018)
    04.70.−s, 71.30.+h, 73.22.−f (all)
  6. A.V. Eletskii, A.A. Knizhnik et alElectrical characteristics of carbon nanotube doped composites58 209–251 (2015)
    72.80.Tm, 73.61.Ph, 73.63.Fg (all)
  7. P.B. Sorokin, L.A. Chernozatonskii “Graphene-based semiconductor nanostructures56 105–122 (2013)
    73.22.−f, 73.22.Pr, 73.61.Ey, 81.05.ue (all)
  8. Plasmonics (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 21 February 2012)55 1035–1058 (2012)
    01.10.Fv, 33.50.Dq, 42.50.Nn, 42.55.Ah, 42.70.Nq, 71.45.−d, 73.20.Mf, 73.22.−f, 78.20.Ek, 78.67.Bf, 78.67.Pt, 81.05.Xj (all)
  9. Yu.E. Lozovik “Plasmonics and magnetoplasmonics based on graphene and a topological insulator55 1035–1039 (2012)
    71.45.−d, 73.20.Mf, 73.22.−f (all)
  10. A.V. Eletskii “Carbon nanotube-based electron field emitters53 863–892 (2010)
    73.63.Fg, 85.35.Kt, 85.45.Db (all)
  11. A.V. Eletskii “Transport properties of carbon nanotubes52 209–224 (2009)
    65.80.+n, 73.23.Ad, 73.63.Fg (all)
  12. A.I. Vorob’eva “Fabrication techniques of electrode arrays for carbon nanotubes52 225–234 (2009)
    73.63.Fg, 85.35.Kt, 85.40.−e (all)
  13. L.V. Kulik, V.E. Kirpichev “Inelastic light scattering spectroscopy of electron systems in single and double quantum wells49 353–368 (2006)
    73.21.−b, 73.22.−f, 73.43.Lp, 78.67.−n (all)
  14. 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)
  15. A.V. Eletskii “Sorption properties of carbon nanostructures47 1119–1154 (2004)
    61.46.+w, 68.43.−h, 81.07.De (all)
  16. A.V. Eletskii “Carbon nanotubes and their emission properties45 369–402 (2002)
    73.22.−f, 73.63.Fg, 81.07.De (all)
  17. E.L. Nagaev “Small metal particles35 (9) 747–782 (1992)
    61.46.Df, 01.30.Vv, 65.80.+n, 64.70.Dv, 73.22.−f, 75.50.Tt (all)
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