Abstract
A review of classical percolation theory is presented, with an emphasis on novel applications to statistical topography, turbulent diffusion, and heterogeneous media. Statistical topography involves the geometrical properties of the isosets (contour lines or surfaces) of a random potential psi(x). For rapidly decaying correlations of psi, the isopotentials fall into the same universality class as the perimeters of percolation clusters. The topography of long-range correlated potentials involves many length scales and is associated either with the correlated percolation problem or with Mandelbrot's fractional Brownian reliefs. In all cases, the concept of fractal dimension is particularly fruitful in characterizing the geometry of random fields. The physical applications of statistical topography include diffusion in random velocity fields, heat and particle transport in turbulent plasmas, quantum Hall effect, magnetoresistance in inhomogeneous conductors with the classical Hall effect, and many others where random isopotentials are relevant. A geometrical approach to studying transport in random media, which captures essential qualitative features of the described phenomena, is advocated.
Keywords
PhysicsStatistical physicsPercolation (cognitive psychology)Brownian motionDiffusion-limited aggregationFractalMandelbrot setFractional Brownian motionPercolation thresholdUniversality (dynamical systems)Fractal dimensionCondensed matter physicsQuantum mechanicsMathematical analysisMathematicsElectrical resistivity and conductivity
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Publication Info
- Year
- 1992
- Type
- article
- Volume
- 64
- Issue
- 4
- Pages
- 961-1043
- Citations
- 1265
- Access
- Closed
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Cite This
M. B. Isichenko
(1992).
Percolation, statistical topography, and transport in random media.
Reviews of Modern Physics
, 64
(4)
, 961-1043.
https://doi.org/10.1103/revmodphys.64.961
Identifiers
- DOI
- 10.1103/revmodphys.64.961