Sharp universal rate for stable blow-up of corotational wave maps

Abstract

We consider the energy-critical (corotational) 1-equivariant wave maps into the two-sphere. By the seminal work [53] of Rapha\"el and Rodnianski, there is an open set of initial data whose forward-in-time development blows up in finite time with the blow-up rate λ(t)=(T-t)e-|(T-t)|+O(1). In this paper, we show that this eO(1)-factor in fact converges to the universal constant 2e-1, and hence these solutions contract at the universal rate λ(t)=2e-1(T-t)e-|(T-t)|(1+ot T(1)). Our proof is inspired by recent works on type-II blow-up dynamics for parabolic equations. The key improvement is in the construction of an explicit invariant subspace decomposition for the linearized operator perturbed by the scaling generator in the dispersive case, from which we obtain a more precise ODE system determining λ(t).