PACS numbers

52.27.Lw Dusty or complex plasmas; plasma crystals 52.65.Yy Molecular dynamics methods 61.72.J− Point defects and defect clusters 64.70.D− Solid-liquid transitions
  1. N.P. Kobelev, V.A. Khonik “A novel view of the nature of formation of metallic glasses, their structural relaxation, and crystallization66 673–690 (2023)
    61.43.−j, 61.72.J−, 81.05.Kf (all)
  2. A.I. Savvatimskiy, S.V. Onufriev, N.M. Aristova “Physical properties of refractory carbides of metals of groups IV and V of the Mendeleev periodic table during rapid heating by an electric current pulse65 597–616 (2022)
    64.70.D−, 65.40.−b, 81.05.Je (all)
  3. D.K. Belashchenko “Does the embedded atom model have predictive power?63 1161–1187 (2020)
    02.70.−c, 64.30.−t, 64.70.D− (all)
  4. A.I. Savvatimskii, S.V. Onufriev “Investigation of the physical properties of carbon under high temperatures (experimental studies)63 1015–1036 (2020)
    05.70.−a, 64.70.D−, 65.40.Ba (all)
  5. V.N. Ryzhov, E.E. Tareyeva et alComplex phase diagrams of systems with isotropic potentials: results of computer simulations63 417–439 (2020)
    02.70.Ns, 64.10.+h, 64.70.D− (all)
  6. L. Couëdel, V.M. Nosenko et alExperimental studies of two-dimensional complex plasma crystals: waves and instabilities62 1000–1011 (2019)
    52.27.Lw, 63.22.−m, 64.70.dj (all)
  7. S.M. Stishov “Quantum effects in a system of Boltzmann hard spheres62 617–622 (2019)
    64.70.D−, 67.10.Fj (all)
  8. S.A. Aseyev, E.A. Ryabov “Investigation of structural dynamics of substances using ultrafast electron diffraction and microscopy62 289–293 (2019)
    07.78.+s, 61.05.J−, 64.70.D−, 64.70.K−, 68.37.Og (all)
  9. V.N. Ryzhov, E.E. Tareyeva et alBerezinskii—Kosterlitz—Thouless transition and two-dimensional melting60 857–885 (2017)
    02.70.Ns, 05.70.Ln, 64.10.+h, 64.60.Ej, 64.70.D− (all)
  10. V.N. Tsytovich “Self-organized dusty structures in a complex plasma under microgravity conditions: prospects for experimental and theoretical studies58 150–166 (2015)
    52.27.Lw, 52.35.−g, 52.65.Vv, 52.90.+z (all)
  11. A.A. Ishchenko, S.A. Aseev et alUltrafast electron diffraction and electron microscopy: present status and future prospects57 633–669 (2014)
    07.78.+s, 61.05.J−, 64.70.D−, 64.70.K−, 68.37.Og (all)
  12. R.S. Berry, B.M. Smirnov “Modeling of configurational transitions in atomic systems56 973–998 (2013)
    36.40.−c, 36.40.Ei, 64.70.D−, 71.15.Mb, 81.16.Hc, 82.30.−b (all)
  13. V.N. Tsytovich “On the physical interpretation of Thomson scattering in a plasma56 180–191 (2013)
    52.27.Lw, 52.35.Dm, 52.35.Fp, 52.35.Qz (all)
  14. V.D. Shiltsev “High energy particle colliders: past 20 years, next 20 years and beyond55 965–976 (2012)
    29.20.−c, 29.20.Ej, 29.27.−a, 41.75.Jv, 52.27.Lw, 52.38.Kd (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. V.I. Krauz, Yu.V. Martynenko et alNanostructures in controlled thermonuclear fusion devices53 1015–1038 (2010)
    52.27.Lw, 52.55.Fa, 68.37.−d (all)
  17. B.A. Klumov “On melting criteria for complex plasma53 1053–1065 (2010)
    52.27.Lw, 52.65.Yy, 61.72.J−, 64.70.D− (all)
  18. V.N. Tsytovich “Polarization effects in a medium: from Vavilov-Cherenkov radiation and transition radiation to dust-particle pairing, or the development of one of V L Ginzburg’s ideas from 1940 to 200650 545–553 (2007)
    01.10.Fv, 41.60.−m, 52.20.−j, 52.27.Lw (all)
  19. V.N. Tsytovich “The development of physical ideas concerning the interaction of plasma flows and electrostatic fields in dusty plasmas50 409–451 (2007)
    52.25.−b, 52.27.Lw, 94.05.Bf (all)
  20. V.E. Fortov, A.G. Khrapak et alDusty plasmas47 447–492 (2004)
    52.20.−j, 52.27.Lw, 52.35.−g (all)
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