Polluted Bootstrap Percolation in Three Dimensions
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In the polluted bootstrap percolation model, vertices of the cubic lattice $\mathbb{Z}^3$ are independently declared initially occupied with probability $p$ or closed with probability $q$. Under the standard (respectively, modified) bootstrap rule, a vertex becomes occupied at a subsequent step if it is not closed and it has at least $3$ occupied neighbors (respectively, an occupied neighbor in each coordinate). We study the final density of occupied vertices as $p,q\to 0$. We show that this density converges to $1$ if $q \ll p^3(\log p^{-1})^{-3}$ for both standard and modified rules. Our principal result is a complementary bound with a matching power for the modified model: there exists $C$ such that the final density converges to $0$ if $q > Cp^3$. For the standard model, we establish convergence to $0$ under the stronger condition $q>Cp^2$.
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Cited by 1 Pith paper
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Time Scales of the Fredrickson-Andersen Model on Polluted $\mathbb{Z}^{2}$ and $\mathbb{Z}^{3}$
Bounds on the infection time of the origin are given for the two-neighbor Fredrickson-Andersen model on quenched polluted Z^2 and Z^3 at low pollution density.
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