FKPP fronts in quenched random media

Abstract

We study numerically the evolution of one-dimensional FKPP fronts initiated from steep initial conditions in the presence of a quenched random growth rate. Compared to both the homogeneous case (with velocity v0) and deterministic disorder, quenched randomness increases the average propagation speed. We show that the velocity shift relative to the homogeneous case scales linearly with the disorder variance σ2, with a universal prefactor -- independent of the specific distribution of the disorder -- such that v = v0 + a σ2, with a ≈ 0.02432 0.00002. Moreover, the front position exhibits diffusive fluctuations across disorder realizations. The corresponding effective diffusion coefficient scales quadratically with σ, D = b2 σ22, with b ≈ 0.223 0.002. These results suggest a universal statistical response of FKPP fronts to quenched heterogeneity.