PACS numbers

05.10.Gg Stochastic analysis methods (Fokker-Planck, Langevin, etc.) 05.40.Jc Brownian motion 44.25.+f Natural convection 92.60.Fm Boundary layer structure and processes 92.60.hk Convection, turbulence, and diffusion
  1. O.G. Onishchenko, O.A. Pokhotelov et alStructure and dynamics of concentrated mesoscale vortices in planetary atmospheres63 (7) (2020)
    92.10.ak, 92.60.Fm, 92.60.hk (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, 92.60.hk (all)
  3. 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)
  4. 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)
  5. V.V. Uchaikin “Self-similar anomalous diffusion and Levy-stable laws46 821–849 (2003)
    02.50.−r, 05.40.Fb, 05.40.Jc (all)
  6. 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
  7. 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)
  8. L.Kh. Ingel’ “Self-action of a heat-releasing admixture in a liquid medium41 95–99 (1998)
    44.25.+f, 47.27.+i
  9. L.Kh. Ingel’ “’Anticonvection’40 741–745 (1997)
    44.25.+f, 47.20.Bp (all)
  10. E.D. Eidel’man “Excitation of an electric instability by heating38 1231–1246 (1995)
    44.25.+f, 47.20.−k, 47.65.+a (all)
  11. F.V. Dolzhanskii, M.V. Kurganskii “Asymptotic models of atmospheric flows34 (7) 644–644 (1991)
    92.60.hh, 92.60.Fm, 92.40.Zg, 92.60.Bh, 92.60.Aa (all)
  12. Yu.L. Klimontovich “Problems in the statistical theory of open systems: Criteria for the relative degree of order in self-organization processes32 416–433 (1989)
    05.40.Jc, 05.70.Ln, 05.70.Ce, 05.45.Xt (all)
  13. Yu.L. Klimontovich “Fluctuation-dissipation relations. Role of the finiteness of the correlation time. Quantum generalization of Nyquist’s formula30 154–167 (1987)
    05.40.Ca, 05.70.−a, 05.10.Gg (all)
  14. V.I. Klyatskin, V.I. Tatarskii “Diffusive random process approximation in certain nonstationary statistical problems of physics16 494–511 (1974)
    05.40.Jc, 05.60.−k, 05.45.Xt, 02.60.Cb (all)
  15. V.E. Zuev “Laser sounding of the atmosphere15 526–526 (1973)
    92.90.+x, 93.85.−q, 92.60.Mt, 92.60.hk, 92.60.Vb, 07.07.Df (all)
  16. V.I. Arabadzhi “Model demonstration of brownian motion14 784–784 (1972)
    05.40.Jc
  17. V.I. Tikhonov “Peaks of random processes5 594–611 (1963)
    05.40.Ca, 05.40.Jc (all)
  18. F.G. Bass, S.Ya. Braude et alFluctuations of electromagnetic waves in the troposphere in the presence of separation boundaries4 51–69 (1961)
    92.60.Ta, 41.20.Jb, 92.60.hk, 02.50.−r (all)
  19. A.S. Monin “ATMOSPHERIC DIFFUSION2 50–58 (1959)
    92.60.hk, 92.60.Sz (all)
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