PACS numbers

47.53.+n Fractals in fluid dynamics
  1. O.G. Bakunin “Quasilinear theory of plasma turbulence. Origins, ideas, and evolution of the methodPhys. Usp. 61 52–83 (2018)
    05.40.−a, 47.27.tb, 47.53.+n (all)
  2. O.G. Bakunin “Stochastic instability and turbulent transport. Characteristic scales, increments, diffusion coefficientsPhys. Usp. 58 252–285 (2015)
    05.40.−a, 47.27.−i, 47.53.+n (all)
  3. O.G. Bakunin “The role of B.B. Kadomtsev’s ideas in shaping the current understanding of turbulent transportPhys. Usp. 56 1132–1149 (2013)
    05.40.−a, 47.27.−i, 47.53.+n (all)
  4. O.G. Bakunin “Reconstruction of streamline topology, and percolation models of turbulent transportPhys. Usp. 56 243–260 (2013)
    05.40.−a, 47.27.T−, 47.53.+n (all)
  5. O.G. Bakunin “Correlation and percolation properties of turbulent diffusionPhys. Usp. 46 733–744 (2003)
    05.40.−a, 47.27.Qb, 47.53.+n (all)
  6. V.V. Zosimov, L.M. Lyamshev “Fractals in wave processesPhys. Usp. 38 347–384 (1995)
    47.35.+i, 47.52.+j, 47.53.+n, 61.43.Hv (all)
  7. E.F. Mikhailov, S.S. Vlasenko “The generation of fractal structures in gaseous phasePhys. Usp. 38 253–271 (1995)
    36.40.−c, 47.53.+n, 61.43.Hv (all)
  8. E.P. Emets, A.E. Novoselova, P.P. Poluektov “In situ determination of the fractal dimensions of aerosol particlesPhys. Usp. 37 881–887 (1994)
    61.43.Hv, 47.53.+n, 82.70.Rr, 92.60.Mt (all)
  9. A.I. Olemskoi, A.Ya. Flat “Application of fractals in condensed-matter physicsPhys. Usp. 36 (12) 1087–1128 (1993)
    64.60.Ak, 47.53.+n, 61.43.Hv, 61.44.−n (all)
  10. A.G. Bershadskii “Large-scale fractal structure in laboratory turbulence, astrophysics, and the oceanSov. Phys. Usp. 33 (12) 1073–1075 (1990)
    47.53.+n, 92.10.Lq, 47.27.−i, 95.30.Lz, 05.45.Df (all)
  11. B.M. Smirnov “Phenomena of growth of fractal systemsSov. Phys. Usp. 32 941–942 (1989)
    01.30.Vv, 61.43.Hv, 47.53.+n (all)
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