Critical Keller-Segel meets Burgers on S1: large-time smooth solutions

Abstract

We show that solutions to the parabolic-elliptic Keller-Segel system on S1 with critical fractional diffusion (-)12 remain smooth for any initial data and any positive time. This disproves, at least in the periodic setting, the large-data-blowup conjecture by Bournaveas and Calvez. As a tool, we show smoothness of solutions to a modified critical Burgers equation via a generalization of the method of moduli of continuity by Kiselev, Nazarov and Shterenberg. over a setting where the considered equation has no scaling. This auxiliary result may be interesting by itself. Finally, we study the asymptotic behavior of global solutions, improving the existing results.