Internal mode-induced growth in 3d nonlinear Klein-Gordon equations

Abstract

This note complements the paper LP by proving a scattering statement for solutions of nonlinear Klein-Gordon equations with an internal mode in 3d. We show that small solutions exhibit growth around a one-dimensional set in frequency space and become of order one in L∞ after a short transient time. The dynamics are driven by the feedback of the internal mode into the equation for the field (continuous spectral) component. The main part of the proof consists of showing suitable smallness for a "good" component of the radiation field. This is done in two steps: first, using the machinery developed in LP, we reduce the problem to bounding a certain quadratic normal form correction. Then we control this latter by establishing some refined estimates for certain bilinear operators with singular kernels.