Non-Optimality of Invaded Geodesics in 2d Critical First-Passage Percolation

Abstract

We study the critical case of first-passage percolation in two dimensions. Letting (te) be i.i.d. nonnegative weights assigned to the edges of Z2 with P(te=0)=1/2, consider the induced pseudometric (passage time) T(x,y) for vertices x,y. It was shown in [2] that the growth of the sequence ET(0,∂ B(n)) (where B(n) = [-n,n]2) has the same order (up to a constant factor) as the sequence ETinv(0,∂ B(n)). This second passage time is the minimal total weight of any path from 0 to ∂ B(n) that resides in a certain embedded invasion percolation cluster. In this paper, we show that this constant factor cannot be taken to be 1. That is, there exists c>0 such that for all n, \[ ETinv(0,∂ B(n)) ≥ (1+c) ET(0,∂ B(n)). \] This result implies that the time constant for the model is different than that for the related invasion model, and that geodesics in the two models have different structure.