PACS numbers

07.60.−j Optical instruments and equipment 07.79.Fc Near-field scanning optical microscopes 61.46.−w Structure of nanoscale materials 68.37.Ps Atomic force microscopy (AFM) 68.65.Pq Graphene films 85.30.De Semiconductor-device characterization, design, and modeling 87.64.kp Raman
  1. S.I. Sadovnikov “Semiconductor nanocrystalline sulfidesPhys. Usp. 68 (3) (2025)
    61.46.−w, 71.35.−y, 73.21.−b (all)
  2. P.N. Melentiev, A.S. Kalmykov et alOptical methods for detection of single biomolecules: visualization, sensorics, sequencing of DNA moleculesPhys. Usp. 67 1069–1083 (2024)
    07.60.−j, 32.50.+d, 87.64.−t (all)
  3. E.N. Ragozin “X-ray and vacuum ultraviolet spectroscopy at Lebedev Physical Institute (LPI)Phys. Usp. 67 828–844 (2024)
    01.65.+g, 07.60.−j, 07.85.Nc (all)
  4. A.A. Shiryaev “Diamond phase in space and the possibility of its spectroscopic detectionPhys. Usp. 67 561–576 (2024)
    61.46.−w, 78.40.−q, 81.05.ug, 95.85.Jq (all)
  5. D.V. Kazantsev, E.A. Kazantseva “Scattering-type apertureless scanning near-field optical microscopyPhys. Usp. 67 588–628 (2024)
    07.60.−j, 07.79.Fc, 61.46.−w, 68.37.Ps, 68.65.Pq, 85.30.De, 87.64.kp (all)
  6. G.V. Murastov, A.A. Lipovka et alLaser reduction of graphene oxide: local control of material propertiesPhys. Usp. 66 1105–1133 (2023)
    68.65.Pq, 81.05.uc, 81.16.−c (all)
  7. Yu.S. Nechaev, E.A. Denisov et alMethod of thermal desorption study of hydrogen states in carbon materials and nanomaterialsPhys. Usp. 66 936–942 (2023)
    61.46.−w, 61.48.−c, 68.43.−h, 89.30.−g (all)
  8. A.P. Porfirev, A.A. Kuchmizhak et alPhase singularities and optical vortices in photonicsPhys. Usp. 65 789–811 (2022)
    07.60.−j, 42.62.−b, 42.70.−a, 42.79.−e, 42.82.−m, 78.20.Fm (all)
  9. P.V. Zinin, K.M. Bulatov et alRemote measurement of the temperature distribution on the surface of solids under high-power laser irradiationPhys. Usp. 65 852–863 (2022)
    07.35.+k, 07.60.−j, 42.79.Jq (all)
  10. I.V. Antonova “Straintronics of 2D inorganic materials for electronic and optical applicationsPhys. Usp. 65 567–596 (2022)
    68.60.Bs, 68.65.Pq, 72.80.Vp, 73.40.−c, 77.65.Ly (all)
  11. G.E. Abrosimova, D.V. Matveev, A.S. Aronin “Nanocrystal formation in homogeneous and heterogeneous amorphous phasesPhys. Usp. 65 227–244 (2022)
    61.46.−w, 64.70.P−, 64.75.−g (all)
  12. M.A. Proskurnin, V.R. Khabibullin et alPhotothermal and optoacoustic spectroscopy: state of the art and prospectsPhys. Usp. 65 270–312 (2022)
    07.60.−j, 42.30.Wb, 43.35.Sx, 43.35.Ud, 78.20.nb, 78.20.N−, 78.20.Pa, 81.70.Cv, 82.80.Kq, 87.19.Pp (all)
  13. A.G. Syromyatnikov, S.V. Kolesnikov et alFormation and properties of metallic atomic chains and wiresPhys. Usp. 64 671–701 (2021)
    05.10.Ln, 61.46.−w, 68.55.A−, 68.65.−k, 73.63.Rt, 75.75.−c (all)
  14. E.N. Ragozin, E.A. Vishnyakov et alSoft X-ray spectrometers based on aperiodic reflection gratings and their applicationPhys. Usp. 64 495–514 (2021)
    07.60.−j, 07.85.−m, 07.85.Fv, 07.85.Nc, 07.87.+v, 42.79.−e (all)
  15. A.D. Pogrebnyak, M.A. Lisovenko et alProtective coatings with nanoscale multilayer architecture: current state and main trendsPhys. Usp. 64 253–279 (2021)
    61.46.−w, 62.20.Qp, 62.25.−g, 68.35.Gy (all)
  16. K.V. Larionov, P.B. Sorokin “Investigation of atomically thin films: state of the artPhys. Usp. 64 28–47 (2021)
    61.46.−w, 68.90.+g, 81.05.ue (all)
  17. A.I. Gusev “High-energy ball milling of nonstoichiometric compoundsPhys. Usp. 63 342–364 (2020)
    61.46.−w, 61.66.Fn, 61.82.Rx, 81.07.Wx (all)
  18. V.N. Polkovnikov, N.N. Salashchenko et alBeryllium-based multilayer X-ray opticsPhys. Usp. 63 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)
  19. K.B. Fritzler, V.Ya. Prinz “3D printing methods for micro- and nanostructuresPhys. Usp. 62 54–69 (2019)
    32.80.Rm, 42.82.Cr, 61.46.−w, 68.65.−k, 81.20.−n (all)
  20. P.V. Ratnikov, A.P. Silin “Two-dimensional graphene electronics: current status and prospectsPhys. Usp. 61 1139–1174 (2018)
    68.65.Cd, 68.65.Pq, 73.21.Fg, 73.40.Gk, 73.50.−h, 85.30.Tv, 85.40.−e, 85.60.−q, 85.65.+h (all)
  21. E.F. Sheka, N.A. Popova, V.A. Popova “Physics and chemistry of graphene. Emergentness, magnetism, mechanophysics and mechanochemistryPhys. Usp. 61 645–691 (2018)
    62.25.−g, 68.65.Pq, 73.22.Pr (all)
  22. L.I. Miroshnichenko “Solar cosmic rays: 75 years of researchPhys. Usp. 61 323–352 (2018)
    61.05.fg, 61.46.−w, 75.50.Mm (all)
  23. B.M. Smirnov “Metal nanostructures: from clusters to nanocatalysis and sensorsPhys. Usp. 60 1236–1267 (2017)
    61.43.Hv, 61.46.−w, 72.15.−v, 73.63.−b (all)
  24. V.T. Dolgopolov “Quantum melting of a two-dimensional Wigner crystalPhys. Usp. 60 731–742 (2017)
    68.65.Pq, 71.10.Hf, 73.20.Qt (all)
  25. E.A. Ekimov, M.V. Kondrin “Vacancy-impurity centers in diamond: perspectives of synthesis and applicationsPhys. Usp. 60 539–558 (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)
  26. D.V. Kazantsev, E.V. Kuznetsov et alApertureless near-field optical microscopyPhys. Usp. 60 259–275 (2017)
    07.60.−j, 07.79.Fc, 61.46.−w, 68.37.Ps, 68.65.Pq, 85.30.De, 87.64.−t (all)
  27. R.A. Andrievski “High-melting point compounds: new approaches and new resultsPhys. Usp. 60 276–289 (2017)
    61.46.−w, 61.66.Fn, 71.15.−m, 71.15.Mb (all)
  28. I.V. Antonova “2D printing technologies using graphene based materialsPhys. Usp. 60 204–218 (2017)
    68.65.Pq, 73.61.−r, 79.60.Jv (all)
  29. V.A. Milichko, A.S. Shalin et alSolar photovoltaics: current state and trendsPhys. Usp. 59 727–772 (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)
  30. A.S. Pirozhkov, E.N. Ragozin “Aperiodic multilayer structures in soft X-ray opticsPhys. Usp. 58 1095–1105 (2015)
    07.60.−j, 42.30.−d, 42.79.−e (all)
  31. R.A. Andrievski “Nanostructures under extremesPhys. Usp. 57 945–958 (2014)
    61.46.−w, 61.82.Rx, 62.20.F−, 65.80.−g, 81.65.Kn (all)
  32. A.E. Galashev, O.R. Rakhmanova “Mechanical and thermal stability of graphene and graphene-based materialsPhys. Usp. 57 970–989 (2014)
    61.48.−c, 65.80.Ck, 68.65.Pq, 72.80.Vp (all)
  33. Yu.I. Ustinovshchikov “Diffusion phase transitions in alloysPhys. Usp. 57 670–683 (2014)
    61.46.−w, 64.75.−g (all)
  34. G.B. Malykin “Sagnac effect in ring lasers and ring resonators. How does the refraction index of the optical medium influence the sensitivity to rotation?Phys. Usp. 57 714–720 (2014)
    03.30.+p, 07.60.−j, 42.60.Da (all)
  35. I.V. Antonova “Chemical vapor deposition growth of graphene on copper substrates: current trendsPhys. Usp. 56 1013–1020 (2013)
    68.65.Pq, 81.05.ue, 81.15.Gh, 81.16.Be (all)
  36. G.N. Makarov “Laser applications in nanotechnology: nanofabrication using laser ablation and laser nanolithographyPhys. Usp. 56 643–682 (2013)
    36.40.−c, 42.62.Fi, 61.46.−w, 81.05.ue, 81.07.−b, 81.16.−c, 81.16.Nd (all)
  37. Physical properties of graphene (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 28 March 2012)Phys. Usp. 55 1140–1151 (2012)
    01.10.Fv, 65.80.Ck, 68.65.Pq, 72.15.Jf, 72.20.Pa, 72.80.Vp, 78.67.Wj, 81.05.ue (all)
  38. L.A. Falkovsky “Magnetooptics of graphene layersPhys. Usp. 55 1140–1145 (2012)
    68.65.Pq, 78.67.Wj, 81.05.ue (all)
  39. Ya.S. Greenberg, Yu.A. Pashkin, E. Il’ichev “Nanomechanical resonatorsPhys. Usp. 55 382–407 (2012)
    61.46.−w, 62.25.−g, 81.07.−b, 81.07.Oj (all)
  40. S.P. Vyatchanin “Parametric oscillatory instability in laser gravitational antennasPhys. Usp. 55 302–305 (2012)
    04.80.Nn, 07.60.−j, 42.60.−v (all)
  41. G.E. Abrosimova “Evolution of the structure of amorphous alloysPhys. Usp. 54 1227–1242 (2011)
    61.05.−a, 61.46.−w, 64.70.P−, 64.75.−g (all)
  42. K.S. Novoselov “Graphene: materials in the FlatlandPhys. Usp. 54 (12) (2011)
    01.10.Fv, 68.65.Pq, 72.80.Vp (all)
  43. A.K. Geim “Random walk to graphenePhys. Usp. 54 (12) (2011)
    01.10.Fv, 68.65.Pq, 72.80.Vp (all)
  44. M.B. Mensky “Measurability of quantum fields and the energy—time uncertainty relationPhys. Usp. 54 519–528 (2011)
    03.65.Ta, 03.75.−b, 07.79.Fc (all)
  45. M.V. Avdeev, V.L. Aksenov “Small-angle neutron scattering in structure research of magnetic fluidsPhys. Usp. 53 971–993 (2010)
    61.05.fg, 61.46.−w, 75.50.Mm (all)
  46. I.S. Osad’ko “The near-field microscope as a tool for studying nanoparticlesPhys. Usp. 53 77–81 (2010)
    07.79.Fc, 41.20.−q, 68.37.Vj (all)
  47. R.A. Andrievski, A.M. Glezer “Strength of nanostructuresPhys. Usp. 52 315 (2009)
    61.46.−w, 61.72.Mm, 62.25.−g (all)
  48. R.S. Berry, B.M. Smirnov “Phase transitions in various kinds of clustersPhys. Usp. 52 137–164 (2009)
    36.40.Ei, 61.46.−w, 64.70.Hz (all)
  49. A.D. Pogrebnjak, A.P. Shpak et alStructures and properties of hard and superhard nanocomposite coatingsPhys. Usp. 52 29–54 (2009)
    61.46.−w, 62.20.Qp, 62.25.−g (all)
  50. V.P. Krainov, B.M. Smirnov, M.B. Smirnov “Femtosecond excitation of cluster beamsPhys. Usp. 50 907–931 (2007)
    36.40.−c, 52.40.Hf, 52.40.Mj, 61.46.−w (all)
  51. R.A. Andrievski “Hydrogen in nanostructuresPhys. Usp. 50 691–704 (2007)
    61.43.Dq, 61.46.−w, 61.48.+c, 81.07.−b (all)
  52. V.P. Tychinskii “Dynamic phase microscopy: is a “dialogue” with the cell possible?Phys. Usp. 50 513–528 (2007)
    07.60.−j, 87.16.−b, 87.64.−t (all)
  53. V.E. Kurochkin “Methods and tools for the express immunoassay. A new approach to solving the problemPhys. Usp. 49 965–971 (2006)
    01.10.Fv, 07.60.−j, 87.64.−t (all)
  54. Yu.S. Nechaev “The nature, kinetics, and ultimate storage capacity of hydrogen sorption by carbon nanostructuresPhys. Usp. 49 563–591 (2006)
    61.46.−w, 61.48.+e, 68.43.−h, 89.30.−g (all)
  55. M.I. Lomaev, V.S. Skakun et alExcilamps: efficient sources of spontaneous UV and VUV radiationPhys. Usp. 46 193–209 (2003)
    07.60.−j, 42.72.Bj, 52.80.−s (all)
  56. N.S. Maslova “Chemistry and physics of solid surfacesSov. Phys. Usp. 34 (4) 359–359 (1991)
    68.37.Ef, 68.37.Ps, 68.47.Fg (all)
  57. I.L. Fabelinskii “New optical methods of studying rapid processesSov. Phys. Usp. 14 341–349 (1971)
    42.65.Re, 07.60.−j, 42.60.−v, 42.72.−g, 42.65.Hw, 42.65.Es (all)
  58. F. Gerasimov, Yu.M. Kagan et alSERGEĬ ÉDUARDOVICH FRISH (on his 70th Birthday)Sov. Phys. Usp. 12 438–439 (1969)
    01.60.+q, 07.60.−j, 42.50.−p, 52.50.Jm, 51.70.+f, 32.30.−r (all)
  59. S.I. Vavilov “Galileo in the history of opticsSov. Phys. Usp. 7 596–616 (1965)
    07.60.−j, 42.15.−i, 95.55.Br (all)
  60. V.I. Fistul’, N.Z. Shvarts “TUNNEL DIODESSov. Phys. Usp. 5 430–459 (1962)
    85.30.Mn, 73.40.Gk, 73.40.Kp, 85.30.De (all)
  61. S.G. Rautian “Real spectral apparatusSov. Phys. Usp. 1 245–273 (1958)
    07.57.Ty, 07.60.−j (all)
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