The existence and stability of spike solutions for a chemotaxis system modeling crime pattern formation

Abstract

This paper is a continuation of the paper Berestycki, Wei and Winter Berestycki2014. In Berestycki2014, the existence of multiple symmetric and asymmetric spike solutions of a chemotaxis system modeling crime pattern formation, suggested by Short, Bertozzi, and Brantingham Short2010, has been proved in the one-dimensional case. The problem of stability of these spike solutions has been left open. In this paper, we establish the existence of a single radial symmetric spike solution for the system in the one and two-dimensional cases. The main difficulty is to deal with quasilinear elliptic problems whose diffusion coefficients vary largely near the core. We also study the linear stability of the spike solutions in both one-dimensional and two-dimensional cases which show complete different behaviors. In the one-dimensional case, we show that when the reaction time ratio τ>0 is small enough, or large enough, the spike solution is linearly stable. In the two-dimensional case, when τ is small enough, the spike solution is linearly stable; while when τ is large enough, the spike solution is linearly unstable and Hopf bifurcation occurs from the spike solution at some τ=τh.