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  • Maximum percolation time in two-dimensional bootstrap percolation

    Percolation theory

    FBMPM. Przykucki SIAM Journal on Discrete Mathematics

    Maximum percolation time

    A simple formula gives the maximum time for an n x n grid to become entirely infected having undergone a bootstrap percolation process.

Maximum percolation time in two-dimensional bootstrap percolation

A simple formula gives the maximum time for an n x n grid to become entirely infected having undergone a bootstrap percolation process.

SIAM Journal on Discrete Mathematics 29, 224 (2015)

F. Benevides, M. Przykucki

Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"
Image for the paper "Maximum percolation time in two-dimensional bootstrap percolation"

We consider a classic model known as bootstrap percolation on the n × n square grid. To each vertex of the grid we assign an initial state, infected or healthy, and then in consecutive rounds we infect every healthy vertex that has at least 2 already infected neighbours. We say that percolation occurs if the whole grid is eventually infected. In this paper, contributing to a recent series of extremal results in this field, we prove that the maximum time a bootstrap percolation process can take to eventually infect the entire vertex set of the grid is 13n^2/18 +O(n).