The frontier in gradient percolation is generated directly by a type of self-avoiding random walk. The existence of the gradient permits one to generate an infinite walk on a computer of finite memory. From this walk, the percolation threshold pc for a two-dimensional lattice can be determined with apparently maximum efficiency for a naive Monte Carlo calculation (+or-N-12/). For a square lattice, the value pc=0.592745+or-0.000002 is found for a simulation of N=2.6*1011 total steps (occupied and blocked perimeter sites). The power of the method is verified on the Kagome site percolation case.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/48807/2/jav19i18pL1169.pd
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Simulations of random walkers on two‐dimensional (square lattice) percolation clusters were performe...
Percolation theory is a useful tool when modeling the random interconnectivity of the microscopic el...
We perform random walk simulations on binary three‐dimensional simple cubic lattices covering the en...
We study the percolation threshold for fully penetrable discs by measuring the average location of t...
We study the percolation threshold for fully penetrable discs by measuring the average location of ...
Algorithms are presented for the computationally efficient manipulation of graphs. These are subseq...
A type of self-avoiding random walk which generates the perimeter of two-dimensional lattice-percola...
The hull-gradient method is used to determine the critical threshold for bond percolation on the two...
We study the percolation transition on a two-dimensional substrate with long-range self-affine corre...
Percolation problems appear in a large variety of different contexts ranging from the design of comp...
We present an algorithm to compute the exact probability $R_{n}(p)$ for a site percolation cluster t...
By means of a well-developed method in self-organized criticality, we can obtain the lower bound for...
We investigate the percolation thresholds of both random and invasion percolation in two and three d...
In this dissertation we introduce and apply a new growth process methodology that provides rigorous ...
An analytical method to compute the site percolation threshold is introduced. This method yields an...
Simulations of random walkers on two‐dimensional (square lattice) percolation clusters were performe...
Percolation theory is a useful tool when modeling the random interconnectivity of the microscopic el...
We perform random walk simulations on binary three‐dimensional simple cubic lattices covering the en...