PACS numbers

62.20.−x Mechanical properties of solids 63.20.Ry Anharmonic lattice modes 81.05.Kf Glasses (including metallic glasses)
  1. V.V. Brazhkin “Ultrahard nanomaterials: myths and reality63 (6) (2020)
    62.20.−x, 62.20.Qp (all)
  2. D.S. Sanditov “Nature of Poisson's ratio of amorphous polymers and glasses and its relation to structure-sensitive properties63 327–341 (2020)
    62.20.−x, 63.20.Ry, 81.05.Kf (all)
  3. D.S. Sanditov, M.I. Ojovan “Relaxation aspects of the liquid—glass transition62 111–130 (2019)
    61.43.Gt, 64.70.Q−, 81.05.kf (all)
  4. A.L. Buchachenko “Microwave stimulation of dislocations and the magnetic control of the earthquake core62 46–53 (2019)
    61.72.−y, 62.20.−x, 91.30.Px (all)
  5. V.I. Alshits, E.V. Darinskaya et alDislocation kinetics in nonmagnetic crystals: a look through a magnetic window60 305–318 (2017)
    07.05.Tp, 61.72.−y, 62.20.−x (all)
  6. A.L. Buchachenko “Magnetoplasticity and the physics of earthquakes. Can a catastrophe be prevented?57 92–98 (2014)
    61.72.−y, 62.20.−x, 91.30.Px (all)
  7. V.I. Alshits, V.N. Lyubimov “Acoustics and optics of absorptive crystals: a universal formalism for topological effects56 1021–1037 (2013)
    42.25.Bs, 62.20.−x, 78.20.Fm (all)
  8. 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)
  9. Spintronics and nanomagnetism (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 25 April 2012)55 1255–1267 (2012)
    01.10.Fv, 61.72.−y, 62.20.−x, 62.30.+d, 75.47.−m, 75.75.−c, 85.75.−d (all)
  10. V.E. Panin, V.E. Egorushkin, A.V. Panin “Nonlinear wave processes in a deformable solid as in a multiscale hierarchically organized system55 1260–1267 (2012)
    61.72.−y, 62.20.−x, 62.30.+d (all)
  11. Yu.S. Nechaev “The distribution of carbon in steels54 465–471 (2011)
    61.72.−y, 62.20.−x, 81.30.Kf (all)
  12. Yu.A. Kosevich, L.I. Manevitch, E.L. Manevitch “Vibrational analogue of nonadiabatic Landau — Zener tunneling and a possibility for the creation of a new type of energy trap53 1281–1286 (2010)
    62.25.Fg, 62.25.Jk, 63.20.Ry, 82.20.Rp (all)
  13. L.V. Spivak “Synergy effects in the deformation response of thermodynamically open metal — hydrogen systems51 863–885 (2008)
    61.43.−j, 61.72.−y, 62.20.−x, 81.05.Bx (all)
  14. Yu.S. Nechaev “Metallic materials for the hydrogen energy industry and main gas pipelines: complex physical problems of aging, embrittlement, and failure51 681–697 (2008)
    62.20.−x, 81.40.−z, 89.20.Bb (all)
  15. R.B. Morgunov “Spin micromechanics in the physics of plasticity47 125–147 (2004)
    61.72.−y, 62.20.−x, 75.80.+q (all)
  16. V.S. Vavilov “The properties of natural and synthetic diamond36 (11) 1083–1084 (1993)
    01.30.Vv, 61.66.Bi, 78.20.−e, 62.20.−x, 65.40.−b (all)
  17. V.G. Vaks, S.P. Kravchuk, A.V. Trefilov “Microscopic theory of anharmonic effects in alkali and bcc alkaline earth metals31 474–476 (1988)
    63.20.Ry, 63.70.+h, 65.40.−b, 62.20.Dc, 64.70.Kb, 81.30.Kf (all)
  18. V.M. Agranovich, I.I. Lalov “Effects of strong anharmonicity in the spectra of optical phonons and polaritons28 484–505 (1985)
    63.20.Ry, 71.36.+c, 78.30.−j (all)
  19. L.S. Palatnik, A.I. Il’inskii “Mechanical properties of metallic films11 564–581 (1969)
    68.60.Bs, 68.55.Jk, 62.20.−x (all)
  20. V.N. Murzin, R.E. Pasynkov, S.P. Solov’ev “Ferroelectricity and crystal-lattice dynamics10 453–484 (1968)
    77.80.Bh, 63.20.Ry, 63.20.Dj, 78.30.−j, 77.84.Dy, 76.80.+y (all)
  21. R.N. Gurzhi “Hydrodynamic effects in solids at low temperature11 255–270 (1968)
    72.15.Eb, 63.20.Ry, 63.20.Kr (all)
  22. B.P. Konstantinov “Serafim Nikolaevich Zhurkov (on his sixtieth birthday)8 800–804 (1966)
    01.60.+q, 62.20.−x, 61.41.+e (all)
  23. G.P. Mikhailov, T.I. Borisova “Molecular motion in polymers7 375–384 (1964)
    61.25.Hq, 61.20.Lc, 77.22.Gm, 62.20.−x (all)
  24. M.V. Vol’kenshtein “Conference on the mechanical properties of non-metallic substances2 171–178 (1959)
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