PACS numbers

44.25.+f Natural convection 47.20.−k Flow instabilities 47.65.+a Magnetohydrodynamics and electrohydrodynamics
  1. I.S. Aranson “Topological defects in active liquid crystals62 (9) (2019)
    42.70.Df, 47.20.−k, 47.63.Gd (all)
  2. A.N. Vulfson, O.O. Borodin “The system of convective thermals as a generalized ensemble of Brownian particles59 109–120 (2016)
    05.10.Gg, 05.40.Jc, 44.25.+f, 92.60.Fm, (all)
  3. E.P. Kurbatov, D.V. Bisikalo, P.V. Kaygorodov “On the possible turbulence mechanism in accretion disks in nonmagnetic binary stars57 787–798 (2014)
    47.20.−k, 47.27.−i, 95.30.Lz (all)
  4. B.Ya. Shmerlin, M.V. Kalashnik “Rayleigh convective instability in the presence of phase transitions of water vapor. The formation of large-scale eddies and cloud structures56 473–485 (2013)
    44.25.+f, 47.20.Bp, 47.27.De, 47.55.P−, 92.60.Ox, 92.60.Qx (all)
  5. L.Kh. Ingel, M.V. Kalashnik “Nontrivial features in the hydrodynamics of seawater and other stratified solutions55 356–381 (2012)
    44.25.+f, 47.20.Bp, 47.20.Dr, 47.54.Bd, 47.55.−t, 92.10.−c (all)
  6. Celebrating the 65th anniversary of the Russian Federal Nuclear Center — All-Russian Research Institute of Experimental Physics (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 6 October 2010)54 387–427 (2011)
    01.10.Fv, 01.65.+g, 05.70.Ce, 07.35.+k, 07.55.Db, 28.52.−s, 28.70.+y, 42.55.−f, 42.62.−b, 47.20.−k, 47.27.wj, 47.40.−x, 52.57.−z, 61.05.C−, 64.30.−t, 74.25.−q, 84.30.Ng, 84.70.+p, 85.70.−w (all)
  7. A.L. Mikhailov, N.V. Nevmerzhitskii, V.A. Raevskii “Hydrodynamic instabilities54 392–397 (2011)
    47.20.−k, 47.27.wj, 47.40.−x (all)
  8. A.M. Fridman “Prediction and discovery of extremely strong hydrodynamic instabilities due to a velocity jump: theory and experiments51 213–229 (2008)
    47.20.−k, 47.80.−v, 98.52.Nr (all)
  9. L.A. Bol’shov, P.S. Kondratenko, V.F. Strizhov “Natural convection in heat-generating fluids44 999–1016 (2001)
    28.90.+t, 44.25.+f
  10. R.Kh. Zeytounian “The Benard-Marangoni thermocapillary-instability problem41 241–267 (1998)
    44.25.+f, 44.30.+v, 47.10.+g, 47.27.+i (all)
  11. L.Kh. Ingel’ “Self-action of a heat-releasing admixture in a liquid medium41 95–99 (1998)
    44.25.+f, 47.27.+i
  12. L.Kh. Ingel’ “’Anticonvection’40 741–745 (1997)
    44.25.+f, 47.20.Bp (all)
  13. A.I. Osipov, A.V. Uvarov “Stability problems in a nonequilibrium gas39 597–608 (1996)
    47.20.−k, 51.90.+r (all)
  14. E.D. Eidel’man “Excitation of an electric instability by heating38 1231–1246 (1995)
    44.25.+f, 47.20.−k, 47.65.+a (all)
  15. A.M. Fridman “Modified criterion for the Landau stabilization of the instability of a tangential velocity discontinuity in a compressible medium33 (10) 865–867 (1990)
    47.20.−k, 47.40.Dc, 47.40.Ki, 47.10.A− (all)
  16. N.M. Kuznetsov “Stability of shock waves32 993–1012 (1989)
    47.40.Nm, 47.20.−k (all)
  17. V.B. Baranov, B.V. Bunkin et alGeorgii Ivanovich Petrov (Obituary)30 918–919 (1987)
    01.60.+q, 47.20.−k (all)
  18. A.G. Merzhanov, É.N. Rumanov “Nonlinear effects in macroscopic kinetics30 293–316 (1987)
    47.35.Fg, 47.70.Pq, 82.33.Vx, 47.20.−k (all)
  19. A.S. Monin “Hydrodynamic instability29 843–868 (1986)
    47.20.−k, 47.85.Dh (all)
  20. A.V. Timofeev “Oscillations of inhomogeneous flows of plasma and liquids13 632–646 (1971)
    52.30.−q, 52.35.Py, 47.20.−k, 47.10.ab, 52.65.Vv (all)
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