On the critical mass Patlak-Keller-Segel system for multi-species populations: global existence and infinite time aggregation

Abstract

We study the global in time existence and long time asymptotics of solutions to the parabolic-elliptic Patlak-Keller-Segel system for the multi-species populations in the whole Euclidean space R2. We prove that at the borderline case of critical mass there exists a global free energy solution subject to initial data with finite entropy and second moment. Moreover, we show that as time t approaches to infinity, all the components of the solutions concentrate in the form of a Dirac measure at a single point. Our approach utilizes the gradient flow structure in Wasserstein space in the spirit of De Giorgi's minimizing movement or the JKO-schemes. Due to the critical mass, the minimization problem in JKO-schemes may not admit a solution in general. We find a necessary and sufficient criterion for which any minimizing sequence remains uniformly bounded in an appropriate topology to ensure the existence of a minimizer.