Long time decay and asymptotics for the complex mKdV equation

Abstract

We study the asymptotics of the complex modified Korteweg-de Vries equation ∂t u + ∂x3 u = -|u|2 ∂x u, which can be used to model vortex filament dynamics. In the real-valued case, it is known that solutions with small, localized initial data exhibit modified scattering for |x| ≥ t1/3 and behave self-similarly for |x| ≤ t1/3. We prove that the same asymptotics hold for complex mKdV. The major difficulty in the complex case is that the nonlinearity cannot be expressed as a derivative, which makes the low-frequency dynamics harder to control. To overcome this difficulty, we introduce the decomposition u = S + w, where S is a self-similar solution with the same mean as u and w is a remainder that has better decay. By using the explicit expression for S, we are able to get better low-frequency behavior for u than we could from dispersive estimates alone. An advantage of our method is its robustness: It does not depend on the precise algebraic structure of the equation, and as such can be more readily adapted to other contexts.