Faraday pilot-wave dynamics: modelling and computation

Author(s)

Milewski, Paul A.; Galeano-Rios, Carlos A.; Nachbin, André; Bush, John W. M.

Abstract

A millimetric droplet bouncing on the surface of a vibrating fluid bath can self-propel by virtue of a resonant interaction with its own wave field. This system represents the first known example of a pilot-wave system of the form envisaged by Louis de Broglie in his double-solution pilot-wave theory. We here develop a fluid model of pilot-wave hydrodynamics by coupling recent models of the droplet’s bouncing dynamics with a more realistic model of weakly viscous quasi-potential wave generation and evolution. The resulting model is the first to capture a number of features reported in experiment, including the rapid transient wave generated during impact, the Doppler effect and walker–walker interactions.

Date issued

2015-07

URI

http://hdl.handle.net/1721.1/107638

Department

Massachusetts Institute of Technology. Department of Mathematics

Journal

Journal of Fluid Mechanics

Publisher

Cambridge University Press

Citation

Milewski, Paul A. et al. “Faraday Pilot-Wave Dynamics: Modelling and Computation.” Journal of Fluid Mechanics 778 (2015): 361–388.

Version: Author's final manuscript

ISSN

0022-1120

1469-7645