Two-dimensional supercritical growth dynamics with one-dimensional nucleation

Abstract

We introduce a class of cellular automata growth models on the two-dimensional integer lattice with finite cross neighborhoods. These dynamics are determined by a Young diagram Z and the radius of the neighborhood, which we assume to be sufficiently large. A point becomes occupied if the pair of counts of currently occupied points on the horizontal and vertical parts of the neighborhood lies outside Z. Starting with a small density p of occupied points, we focus on the first time T at which the origin is occupied. We show that T scales as a power of 1/p, and identify that power, when Z is the triangular set that gives threshold-r bootstrap percolation, when Z is a rectangle, and when it is a union of a finite rectangle and an infinite strip. We give partial results when Z is a union of two finite rectangles. The distinguishing feature of these dynamics is nucleation of lines that grow to significant length before most of the space is covered.