Ratliff, Daniel Flux singularities in multiphase wavetrains and the Kadomtsev-Petviashvili equation with applications to stratified hydrodynamics This paper illustrates how the singularity of the wave action flux causes the Kadomtsev-Petviashvili (KP) equation to arise naturally from the modulation of a two-phased wavetrain, causing the dispersion to emerge from the classical Whitham modulation theory. Interestingly, the coefficients of the resulting KP are shown to be related to the associated conservation of wave action for the original wavetrain, and so may be obtained prior to the modulation. This provides a universal form for the KP as a dispersive reduction from any Lagrangian with the appropriate wave action flux singularity. The theory is applied to the full water wave problem with two layers of stratification, illustrating how the KP equation arises from the modulation of a uniform flow state and how its coefficients may be extracted from the system. Modulation;Lagrangian dynamics;Nonlinear waves;Water waves and fluid dynamics;Asymptotic analysis;Mathematical Sciences not elsewhere classified 2018-11-12
    https://repository.lboro.ac.uk/articles/journal_contribution/Flux_singularities_in_multiphase_wavetrains_and_the_Kadomtsev-Petviashvili_equation_with_applications_to_stratified_hydrodynamics/9377327