Seminar

In this talk I consider steady gravity-capillary surface waves ‘riding’ a perfect fluid in Beltrami flow (a three dimensional flow with parallel velocity and vorticity fields). I will first demonstrate how the hydrodynamic problem can be formulated as two equations for two scalar functions of the horizontal spatial coordinates, namely the elevation of the free surface and the potential defining the gradient part (in the sense of the Hodge–Weyl decomposition) of the horizontal component of the tangential fluid velocity there. The formulation is nonlocal, has a variational structure and generalises the Zakharov–Craig–Sulem formulation for the classical water-wave problem, reducing to it in the irrotational limit.

Starting from the above formulation, one can derive the Kadomtsev-Petviashvili-I (KP-I) equation (strong surface tension) or the Davey-Stewartson (DS) system (weak surface tension) for such Beltrami flows using formal weakly nonlinear theory. These equations have `lump' solutions and thus predict the existence of fully localised solitary water waves for the full problem. I will show how to rigorously reduce the full problem to a perturbation of the KP-I or DS equations and thus construct an existence proof for fully localised solitary waves `riding' Beltrami flows.

Meeting ID: 998 5718 9855

Passcode: 983468

Link: https://msri.zoom.us/j/99857189855?pwd=LzRFR2tPN1cydWJNZEZkclZGV2lpQT09