Finite-time blow-up in a class of chemotaxis systems with spatially heterogeneous diffusion sensitivity

Abstract

∈dent In this paper, we study a class of parabolic-elliptic Keller-Segel systems with diffusion sensitivity dependent on spatial position, given by type equation \ arrayll ut = ·(|x|β u)-·(uα v), 0= v-μ +u, μ:=1||∫udx,array. equation under homogeneous Neumann conditions in a ball =BR(0)⊂ Rn with α 1, β>0 and n 2. ∈dent It is proved that any nonconstant nonnegative radial initial data u0∈ Cθ(), where θ ∈ (0,1), there exists a radially symmetric classical solution of the system (0.1) in ( \ 0 \)× (0,T) for some T>0; moreover, if the initial values u0∈ C1+θ() for some θ ∈ (0,1) and satisfy a certain compatibility criterion and are radially decreasing, then this solution is bounded and unique in ( \ 0 \)× (0,T*) with T*<T. Finally, it is found that the initial mass corresponding to this parabolic-elliptic problem (0.1) is sufficiently concentrated to allow the solution to blow up in finite time.