Metastable behavior for bootstrap percolation on regular trees

Abstract

We examine bootstrap percolation on a regular (b+1)-ary tree with initial law given by Bernoulli(p). The sites are updated according to the usual rule: a vacant site becomes occupied if it has at least theta occupied neighbors, occupied sites remain occupied forever. It is known that, when b>theta>1, the limiting density q=q(p) of occupied sites exhibits a jump at some pt=pt(b,theta) in (0,1) from qt:=q(pt)<1 to q(p)=1 when p>pt. We investigate the metastable behavior associated with this transition. Explicitly, we pick p=pt+h with h>0 and show that, as h decreases to 0, the system lingers around the "critical" state for time order h-1/2 and then passes to fully occupied state in time O(1). The law of the entire configuration observed when the occupation density is q in (qt,1) converges, as h tends to 0, to a well-defined measure.