A Centre-Stable Manifold for the Energy-Critical Wave Equation in R3 in the Symmetric Setting

Abstract

Consider the focusing semilinear wave equation in R3 with energy-critical nonlinearity ∂t2 - - 5 = 0, (0) = 0, ∂t (0) = 1. This equation admits stationary solutions of the form φ(x, a) := (3a)1/4 (1+a|x|2)-1/2, called solitons, which solve the elliptic equation - φ - φ5 = 0. Restricting ourselves to the space of symmetric solutions for which (x) = (-x), we find a local centre-stable manifold, in a neighborhood of φ(x, 1), for this wave equation in the weighted Sobolev space <x>-1 H1 × <x>-1 L2. Solutions with initial data on the manifold exist globally in time for t ≥ 0, depend continuously on initial data, preserve energy, and can be written as the sum of a rescaled soliton and a dispersive radiation term. The proof is based on a new class of reverse Strichartz estimates, introduced in Beceanu-Goldberg and adapted here to the case of Hamiltonians with a resonance.