Radial boundary layers for the singular Keller-Segel model

Abstract

This paper is concerned with the diffusion limit (as → 0) of radial solutions to a chemotaxis system with logarithmic singular sensitivity in a bounded interval with mixed Dirichlet and Robin boundary conditions. We use a Cole-Hopf type transformation to resolve the logarithmic singularity and prove that the solution of the transformed system has a boundary-layer profile as 0, where the boundary layer thickness is of O(α) with 0<α<12. By transferring the results back to the original chemotaxis model via Cole-Hopf transformation, we find that boundary layer profile is present at the gradient of solutions and the solution itself is uniformly convergent with respect to >0.