On the time constant and path length of first-passage percolation

Abstract

Let U be the distribution function of the passage time of an individual bond of the square lattice, and let p_T be the critical probability above which the expected size of the open component of the origin (in the usual bond percolation) is infinite. It is shown that if (∗)U(0–) = 0, U(0) < p_T, then there exist constants 0 < a, C₁ < ∞ such that a self-avoiding path of at least n steps starting at the origin and with passage time ≦ an} ≦ 2 exp (–C₁n).From this it follows that under (∗) the time constant μ (U) of first-passage percolation is strictly positive and that for each c > 0 lim sup (1/n)N_n(c) <∞, where N_n(c) is the maximal number of steps in the paths starting at the origin with passage time at most cn.