Rigorous justification of the Whitham modulation equations for equations of Whitham type

Abstract

AbstractWe prove that the modulational instability criterion of the formal Whitham modulation theory agrees with the spectral stability of long‐wavelength perturbations of periodic traveling wave solutions to the generalized Whitham equation. We use the standard WKB procedure to derive a quasilinear system of three Whitham modulation equations, written in terms of the mass, momentum, and wave number of a periodic traveling wave solution. We use the same quantities as parameters in a rigorous spectral perturbation of the linearized operator, which allows us to track the bifurcation of the zero eigenvalue as the Floquet parameter varies. We show that the hyperbolicity of the Whitham system is a necessary condition for the existence of purely imaginary eigenvalues in the linearized system, and hence also a prerequisite for modulational stability of the underlying wave. Since the generalized Whitham equation has a Hamiltonian structure, we conclude that strict hyperbolicity is a sufficient condition for modulational stability.