Spatial growth processes with long range dispersion: microscopics, mesoscopics, and discrepancy in spread rate

Abstract

We consider the speed of propagation of a continuous-time continuous-space branching random walk with the additional restriction that the birth rate at any spatial point cannot exceed 1. The dispersion kernel is taken to have density that decays polynomially as |x|- 2α, x ∞. We show that if α > 2, then the system spreads at a linear speed, while for α ∈ ( 12 ,2] the spread is faster than linear. We also consider the mesoscopic equation corresponding to the microscopic stochastic system. We show that in contrast to the microscopic process, the solution to the mesoscopic equation spreads exponentially fast for every α > 12.