Fluid particle dynamics and stokes drift in gravity and capillary waves generated by the faraday instability

In this paper we study particle motions in nearly square containers due to gravity and capillary waves generated by vertical, periodic oscillation of the container. The method of second order partial averaging is used to decompose the particle motions into periodic oscillations and a slow Stokes drift. In the case of gravity waves, it is shown that long distance (several wavelengths) particle transport is possible. In the case of capillary waves, it is shown that, in agreement with experimental observations of Ramshankaret al., particle trajectories can be chaotic even when the wave pattern is regular so long as the pattern is spatially modulated.Dedicated to Professor P. R. Sethna on the Occasion of His 70th BirthdayThis research was partially supported by an NSF Presidential Young Investigator Award and an ONR Grant No. N00014-89-J-3023.