Fractional Keller-Segel Equation: Global Well-posedness and Finite Time Blow-up

Abstract

This article studies the aggregation diffusion equation \[ ∂t = α2 + λ\,div((K*)), \] where α2 denotes the fractional Laplacian and K = x|x|β is an attractive kernel. This equation is a generalization of the classical Keller-Segel equation, which arises in the modeling of the motion of cells. In the diffusion dominated case β < α we prove global well-posedness for an L1k initial condition, and in the fair competition case β = α for an L1k L L initial condition with small mass. In the aggregation dominated case β > α, we prove global or local well-posedness for an Lp initial condition, depending on some smallness condition on the Lp norm of the initial data. We also prove that finite time blow-up of even solutions occurs under some initial mass concentration criteria.